SCIENTIFIC ABSTRACT YUMATOVA, V.I. - YUNUSOV, S.YU.
Document Type:
Collection:
Document Number (FOIA) /ESDN (CREST):
CIA-RDP86-00513R002203710017-8
Release Decision:
RIF
Original Classification:
S
Document Page Count:
100
Document Creation Date:
November 2, 2016
Document Release Date:
September 1, 2001
Sequence Number:
17
Case Number:
Publication Date:
December 31, 1967
Content Type:
SCIENTIFIC ABSTRACT
File:
Attachment | Size |
---|---|
CIA-RDP86-00513R002203710017-8.pdf | 4.82 MB |
Body:
i
i
5- E
WON
USSR uDc. 621-791-008.1
T
"Fourth All-Union Conference on the Welding of Hetoerogeneous Metals"
Kiev,, Avtomaticheskaya Svarka, No 6., 1970p PP: 75-T6
Abstract-: This is a report on the conference held at tLe Electric Welding Insti-
tute imeni Ye. 0. Paton and attended by 280 representatives fi-cm 160 scientific
and production organizations in the natioi.P. The conference was opened by D. A.
Dudko, Corresponding Member of the USSR Academy of Sciences. Problems concerning
the further development of heterogeneous metal welding "llechnology were dealt wiLh
in reports by Academician B. Ye. Paton, Doctor of Technical Rciences D. M. Rabkin,
and Candidate of Technical Sciences.V. R., Rysbav. . A gxaat deal of interest was
aroused by a report of Candidate of Technical Sciences V. A. Nhstercrr on the use
of statistical theory of decay ear estimating the durability of bimtallic alloys.
Some of the other subjects covered include a method of vontact i:elding of alumi=
with steel and copper, the detemination of.the anti-currosican capability of weld-
ing steel and aluminum in distilled waterat high tempel,atures, investigation of
the structure and chemical composition of the titanium-uteal binetal, and the
interaction of hard.niobium with molten steel under electron-lbeam welding.
"il _6
:4 ~HMNIMIMN MWMMI IMM"'t-. PH ~1- MR41M R
USSR UDC 51
TRUBIN, V. A. ,YUN G. N
"Synthesis of an Airline Network in the Process of Choosing
the Optimum Type of Passenger Aircraft"
Upravlyayushchiye sistemy i mashiny, 1972, No 1, pp 55-59
~(from RZh-Kibernetika, No So May '7.3, abstract:No SV725 by
the authors)
Translation: The paper deals with~the multiple-extremum
problem of,choosing a network.of airlines which minimize
overall transportation and OpeTating~!expenses~assuming pre-
determined passenger traffic. An,algorithm, is proposed
for.solving the problem.
USSR UDC 5112.25/.26+519.3;330.115
YUN, G. N.
"Solution of Generalized Distribution Problem Using the Ukrainian Civil Aviation
Administration as an Example"
Mat. Metody Issled. i Optimiz. Sistem. Vyp 4[Mathematical Methods of Investi-
gation and Optimization of Systems, No 4 Collection of Works], Kiev, 1970,
pp, S4-61, (Translated from Referativnvy ZhurDal, Kibernetika, No 6, 1971,
Abstract No 6 V506).
Translation: An algorithm based on the idea of generalized gradient descent of
N. Z. Shor (RZtukIAT, 1968, 3V376), its block diagram and an A-LGOL program are
presented.
Q
JPAS 559J8
9 may 1972
621.391.1
ME PROBLLM OF COMPRESSION - LITERA
L 'IMSSAGES
Moscow,
(Article by.Q.~njrnov =d,.L_,,L6_un ~o~ pr'ltlenv
Tnformatsii No- 1, I.WZ, signed to ress 1-t-Amv 070. -Pp
. IWISian, Vo
-M6 probicz i'I stoted of orderinR of words in dictionar 'Y
A-(ai) in alphabct*q so as to allow minimiation of the
menn length if the code for literal coding of thc fi.-it
r ~ordq and.arbitic-ary coding of 6c remaining, i
thod-13: _-Uggngtod ior~solviiq( the problem. related to
running through all possible ordering versions.
Suppose mavsages from a certain set of words A-jai) ........ N
in alphabet q ave beinE transmitted, and i-. pcTrzr.IiJ using
2 symbol, no" and "I." An example of such methods used is the text of
telegram, utilizing the words of the Rus3iAn language. Prrj_.r transmission
requires ~ codIng of all words in set A by a certain binarr cade V satisfyin
the following _nazyTal: 111mUstiona:
I'ao different messages, must, be cvJcd by differtnt (1)
binary sequences.
If the messages are coded word by word by a Certain code V4A)-
i aj-" 'eh each word ai_ from set A corresponds to bin 1"y word
.61). in whI ~: of the
Vi El m set V. with known frequencies pi of appearance of ea
words, any code V(z) can be set in correspottodence with the quznt Ity,
called the mean coda length.
jxj here and subsequently represents the length of word x.
USSR UDc 616.981.452-022-39:505.7'F5.']-G73.7+576-85.'L-45-095-33:57c"~.8c,":-).
L
mo, I. I., OuiTIVAil, Ye. F. YA: 775
In ,
V74 A:l,,TIJI 14, Ye, L., AE~ Y.1
T;Y(J~QT
S -
E. K.1 GOMBEV) P. D.,, anj G0jjC H-U,, V) A* c
'Uii~ific Research Anti-plap..ze
Institlate Of LAW CaUcasus and Transcaucasus and Arnneilian Ailtipi I e S io
L tat _n)
MbAsty7t of Health USSR
"MxPerience in Seroloj34 al Examinations of Fleas of Rorjents for pla~jje,t
MOSCOW) Zhurna- Mikrobiologii Epideniologii i Im' 1010:" ITO 1, 1973, p 137
ir -0
Abstract: Me -Li-niam"a mut~,cr of ill,fected I-leaf, ~uqljired for a 1POS-itive sarolo_f-
ical resuit is not' in-ore than Ij- in a nixtul--e witin 25 n0rd-n-fe~ct-f-, sv~~Cilnens. The
results of sQx-oloL-,1ca), te.,As are available within 24 lirs after infe-tion of
the tes' -lean if -they are ke[)t at 250C ill a 2~ solifticill cont,-dili-,
-d ch
gentian vlolet anal CAMMIlin w, iffectively p:L
J* t
gen PI antigan fi-um the tisoiw Gf th-_, insectu anU 1'er at, 1(~,aot 45
days. 'Bic solution with or without the fleas can be usad for the ucrological
test which involver, nentra-lization of arrModivs ~,rith sturidard entir;enic
erythrocyte diagnosticim. TrAlic t,,ethod v~s verified in ffauld :Ln t.,.o
smurer of 1196'4, t35 contaj~ nin,r; a total 0' 2, 39T f, CLm, Ce
jllec-~-Cd f r021
field v,~Lcc- and theIr hole.,; in -were wit1i bot*i m~-I-IhocL in
pv"-allel. The nerrlogici.-a- method detected antigen PI in 57 sainple';, wbile ~hc_
USSR
CEERCHEIqKO) I. I., et al., Zhurnal PUkrobiologii Epidumiolo,-,,ii i Trimuicbiologii,
"a 1, 1973, P 137
bacteriological mothod yielded cultures of plague pptIioj-.ten in only 21 swnples.
In sunruer 19,71, positive results uere obtained by the- serol, ic 1 - t i i
)g a me I ad n
24~ of sm-Tles of fleas collected from Lrophers in the Caucasian I-IDwitains.
Subsequently, the bacteriological method used in,Octobe-r 19'rl. yielded positive
xesults for the first time in that region. T'he faster'WIUI 11-DrO. sensitive
serological method is reconraen-ded for torri"%-Iorial surveys of plague pathogen.
2/2
USSR UDC: 547.947.1
RI, K. S.
VACHNADZE, V.-Yu., MALTSKOV, V. 14., ILIYASOVA) Ith. T., MUDZHD
YUNISOV, S. Yu. "Order of the Red Banner of Labor" Institute of the Cheridstry
of Plant Yfaterials, Uzbek SSSR Academy of Sciences; Institute of Pharinaco-
chemistry imeni.I. G. Kutateladze,-Peorgian SSR Academy~.:of Sciences
0(buLlitative Characteristics of Alkaloids-of Some Species of the Genus Vincall
Tashkent, Khimiya Prirodnykh Soyedineniy, No lp 1973, pp 72 76
Abstract: A comparative study is made of qualitative color reactions of 38
ind,ole allaloida with the reagonts eerie a immoni= sulfato- and ferric chloride
in thin layer analysis on silicagel G and.sil-ufol to determine the relation
betueen chemical structure and the type of alkaloid coloring. The alkaloid
color observed after 2-4 hours of contact with the reagents was the criterion.
The results of the study show the feasibility of predetex-mining tile principal
chromophore of the alkaloids (OC-methylenindoline, indoline, indole or hydro-
2qindole) according to color reactions with eerie ammoni= sulfate and ferric
chloride.
F FM-i -M,111 i Fif TL -FT -M T M I M Iiq 10 11
il 191 1Ell 1"Hill!"Usili'M
MWIN I I llelffl.
USSR UDC 669.71.042.62
Wa,ETSCY.V, V. S. PETUKHOVA, T. A.
"Calculation of the Process of Formation ofa Casting During Casting in a
Roller Crystallizer"
Tr. N.-i. i Proekt. In-ta Splavov i Obrabotki Tsvet, Me t [Works of Scienti-
fic Research and Planning Institute for Alloys and Processing of Nonferrous
Metals], No 35, 1971, pp 80-89, (Translated front RefeT,atii~~y Zhurnal,
Metallurgiya, No 5, 1972, Abstract No 5 G210 by:the.authoij.s).
Translation: The process of formation of a thin flat casting of Al of great
length in a roller crystallizer with a stable proces.s.is studied. An analy-
tic study of the process of solidification of the casting is presented.
-3 Figures; 6 Biblio. Refs.
Chaj-- o-f the Nnysiology of Underwa.Gr SwiLninj, 1,11.1itary Mledical
c aemt L
Urov, Lenin~-,,,La.
"Correlation of the Ras*szanca o' ~Lnizals'to H~poxia and Dacot~jpressjon Sickness"
Pat--310E~-chaskaya Fiziclogiyg. i Eks'porimentallnapl J'er,;~piya, Vol 14, No 5,
SeP/Oct 70, PP 71-73
5t,-:-asi-~ivity to zsic~;~-ocis v4trlala within a given
*Ocics. A jtu~I,y to dotcr.Tllrlt~ tiao roLLIIUo,.,i.,5hip butweon an in-
"0 -~Ocomiprosaion Sick-noss ani t"I". to hypoxic hypoida,
;oa t-
6
- .~- Ta-ctor (hypoxic
for c: ~ui:ii~al by Lacio3in I i'z, ~jl a 1.2 litar glass flask
ai-~d letti-i;5- air initially ani tlhv~tn a N2/~'
OL) m.-L%-ti;xe con"Laining 4.6,1' G?
:~'our to s~x days !a--rjr. sclec-cti anim-als froa the sans,.`ktivity groups ware
deco-.~Prassion si("Imess, 'I"Ie sipicness was less
~n mca -viliich 'uera resistant to doiliciancy; It doveloped more
slGwly ana orivero, ani LLO mortality rato vas loicer fc:r these animals
sdowc;d tIL4.) si:pleicanca of the
I O;C~a 0'
CL C
ICO~~ -0 is hopod that
a the basis o;.' i,,ypoxjc factor-, suitablio wotkiodi; =4 be doveloped for the
1/2 -012 UNCLASSIFIVI) WWCES'SENG DATE--20NOV70
JIT-LE-A Nf-w VARIANT oF Tl-.E DEEP GEOLOGICAL STRUCTURE OF;THL SEA Llf:
~-,.__OKHOTSK FLOCR. DEEP GEOLUGICAL STRUC-rUk-E OF SEA 01, 0KtlcTSK FLOOR -u-
Ali thClk-- Yp
A Y U
COUNTRY CF INFO-USSR SEA/OF OKHOTSK
:SCURCE-14C-SCO6, DCKLAOY AKADEt'll NAUK. SSSR, VOL 191, NO 41 1970 PP
~.,OATE-_ PU8L ISF-EC---70
'SU6JECT AREAS--EARTH SCIENCES AND OCEANOGRAPHY
.---T.0 P I CTAGS-6ATHYMETRIC CHARTt GEGMORPHO.LOGYt MA P iSEA FL(l0ko SrRUCTURAL
tt"MCL hAkX I NG-NO RE 5 TR I C T I UN S
DOCUMENT CLASS--UNCLASSIFIED
-PROXY REELIERAME--3005/1193 STEP NI~--VR/0020/701191/004/0893/089'0
.tIRC ACCESSICN NO--AT0133198
C--f 1)
22- 012 UNCLASSIFfED PROCESSING DATE--20NOV70
G.IRC ACCESSION NO--AT0133198
,A8STRACT/EXTRACT--(U) CP-0- AL~STRACT* GEOPHYSICAL INVESTIGATIONS MADE
DURING RECENT YEARS CN WESTERN KAMCHATKA AND IN ThE SEA OF OKHOTSK,
TOGErH9R r.ITH THE COINIPILATION OF MOR&PIRECISE BATHYMEI-Ric AND
GEOMORPHOLOGICAL MAPS, HAVE YIELDED MUCH NEW INFORMATION ON THE
STRUCTURE OF THE NORTHEASTERN SECTOR ~FJHIS REGIUN. FIGURE I IN THE
TEXT 15 THE LATEST VERSION OF A SCHEMATIC. MAP OF DEPTHS OF THE BASEMENT
SUR.:ACE FOR THE.SEA OF OKHOTSK PLATFORM. THe IMAP~CLEARLY SHOWS THE
INHERITEL DERYGINSKIY DowNWARP AND TPE.PARTIALLY INHERITED, PARTIALLY
NEWLY FORMED TINRC DovviNWARP; THE LATTER ENCLUDES-THE I.CHINSK[Y AND
N
SEVERO CKHOTSKIY bCwNWARPS, COMPENSATED BY SEDIME.rs.~ rHE NORTHEASTERN
APART OF TEE TINRO DOWNi4ARP (INCLUDING THt SEVERO OKHOTSKIY AND ICHINSKIY
-PALEODCWNWARPS) EXTENDS INTO SHELIKHCVSKjY GULF, EVIDENTLY CONNECTING
WITH THE PENZHINSKY DOWN'14ARP. THE DERYU'GINSKIY Atli!) TINRO DOWNWARPS
-'':.BELONG TO THE MARGINAL (ARISING AS A RESULT OF 01ROGENIC MOVEMENTS)
SAKHALIN ANOKAMChATKA FOLUED SYSTEMS IN.THE ADJACENT SUBSIDED OR
UPLIFTED (ANO BROKEN INTO BLOCKS BY FAULTS) SECTUS OF~THE SEA OF
GKfiCTSK PLATFORM. ThE ARCHED UPLIFT OF THE HETEROGENEIDUS BASEMENT OF
THE PLArFGRtl HAS A CCivPLEX STRUCTURE, HAS IRREGULAR OUILINES AND IS
BROKEN INTO A NUMBER OF LOCAL UPLIFTS ANU BASINS, A CLINSIOkEAULE PART
OF THE SEVERG OKHCTSKIY [)CiiN~tARP IS CQMPLETELY COMPENS'ATED bY SE01MENT
'AND CONSTITLTES A SHALLOW PART 05 THE SHELF. 130TI-I THE DE~YUGINSKIY A!
TINRG DC4NWARPS ARE PAJOR PETROLEUM AN.U GAS ialASIf;S hi-110-i SUPPLY THE
PETROLEUM ANO GAS REGIONS QF NURTKRN SAKHALIN AND WESTEAN KAMCHATKA.
FACIL11Y: ALL UNION SCIENTIFIC RESLARCH INSTITUll 01' MAiUNE
GEOLOGY AND GEOPHYSICS.
-__'Tl.TL.E--SEISMIC, DATA ON STRUCTURE
_.~?~.~,DATA ON STRUCTURE OF THL
:-,VJTfi0R-(05)-MI.LASHINv A.P.9
TABOYAKOV, A.YA,
,~CrUNTRY OF. INFO-USSR
~SQURCE-GELENDSHIK; MOSCOW,
UNCLASSIFFED" -t~i,CESSING DATE"13NOV70
OF~SEDIMENTS IN TATjkR STRAITp SEISMIr
SEDIMENTARY LAYER I NT H E, SOUTHERN PART OF I'mu
SIPLATOV, V.Aar YUNUVt, A.YU.v VOLKOVt A*Psv
GEOTEK %IKAv.N0 L, 1970~ PP;117-L20
"DOCUMIENT CLASS-UNCLASSIFIED,
REEL/FRAME--1990/0052 STEP NO--UR/9066/7(~/0001001/0117/01.?-O
~CIAC ACCESSION NO--AP0108'i25
I p T, C_ L)
213- O.C9 UN C L A s -SIFIEI) ?ROCESSING DATE-11NOV70
"CIRC ACCESSIGN NO-AP0108425
~~iASTRACTIEXTRAIC -IBS-TRA f.t.6-i
t c- t NlCALJLl.,ij' TjE~!,,rGl0NiClF TATAR
:y-- ~ ---- _ , -'_ -'T - -
_ir'r: i i~ A U T P~'Jl& ER: OF~
CONTIN
lo-li BASM) IS
_j
R'_A N~SfTION' DA ~j AE'~~'t` I"' S_ fAi T-I L~j t~6tl Vil NE Ni - -TO THE
A
Ai~ j~'66 T' 311VIS j0N
I't-OCEAN --~,DURING- T E: SU OF
H ND:I~AUT~PMNJ--,
cl Ni-- G' EDP HYS lGAL__ WORK OF-TH idW ~SC I E ',SVARCH IjjStfT"'rF
_NTIF4 RE
~._:G OPHYSICS ~FOR -THE FURST'TIM& CARR ;ED!,.
ff:NObos PRoFf-:l;'W PlY THE "EFLECTE0
TATAPv STRAIT -BY. THE METHOO:--O~ rbN
L
'Es- mupoD~ MtaST OF THE NORf',: WAS GONE ON THE SAKHALIN I S I- ix:qo I ~4
SHE F
THE SECTOR. OET4EEN CAPE LAMANON:AND THE~ SOUTHEASTERN SHORCES OF DEZ L A N G L
GULF. WITHIN THIS AREA THREE SEI.SIMIC PROF-ILES INTlRSE.(',T TATAR SrRAIT
FROM SAKHALTN TO THE ASIATIC CONTINENT~ IN A LATITUOINAL 1jfpECTlc],N (i--IG.
~ I- DrCATE THAT THE
1 15 A MAP OF THE WORK AREA.) THE COLLECTEO DATi~ 1.4
THE UPPER PART OF THE SEbIK'NTARY
,,STRUCTURE OF COMPLE" IS CHARACTFIRIZED
I
FOR THE MG-iST PART bY TWO GROUPS OF I)EPOSITS, Ill AillEA CAN 3E DIVIDED
JNTO EASTERN AiND WESTERN PAPTS ON TK BASIS OF TH& SEISMIC DATA. THE
EASTERN PART* CORRESPONOING EN GEO-MORPHULOGICAL RE-15PECTS TO THE SHELF
HEAR SAKIIALINi IS CHARACTERIZED ~BY WELL CXPRESSED~Z'DISLOCATION OF THE
DEPOSITS. THE DURATION OF THE:SEISMIC:RECORD HERE YARI-c~S FROM 1.4-2.0
',SEC9 LESS FREOUENTLY 2.5 SEC, IN $YNCLINALIA)OWNWARP-5 TO: 0.7-0.q SEC AND
-COMPLETE DISAPPEARANCE -IN ANTICLINES. * JHE WESTERN.;.PART CORRESPONDS 10
THE AB .YSSAL SECTOR AND THE EASTERN SLOPE OF.THE STRAIT. THE SEISMIC
'RtCORD JS CHARACTERIZED BY A GREAT. ~DURATIO149 UP TO ~3.0-~.5 SEC. THE:
OF THIS.REGION IS DESCRIBED' IN: 'OETAIL.
UNCLASSIF1
1-lo SRI
/3 010- UNCLASSIFIED PROCtSSING DATE---
02OCT70
:-'r-ITLE-CRUSTAL THICKNESS ON KAMCHATKA -U-
-._AUTH9R-(02)-PAVL0Vt YU.A., YUNUV# A*YU*
~,C,OUNTRY OF INFO-USSR
;,~s,PuRC.E_A0SCOWv 0OKLADY AKAOEMII NAUK SSSRP VOL. 191.r;-40. .1* 1970, PP.
~19_4-196
".~'DATE: PUBL I S14E D- ----- 70
---,-SpBJECT,AREAS-EARTH SCIENCES AND OCEANOGRAPHY
,~TQRIG TAGS--EARTH CRUST# OCEAN# LAND# MAPt VOLCANO
-NO RESTRICTIONS
CONTROL MARKING
o0cUMEN1 4~CLASS-UNCLASSIFIED
-paoxy REEOPRAME--1990/0266 STEP NO--UR/0020/70/19t/001/0194/0196
CIRC ACCESSION NC--AT0108572
UNCLASSIFIED
7 1
~-2_13 0-10 UNCLASSIFIED PROCESSIIG DATE-02OCT70
4- -_4__-ACCESSION NO-AT0108572
ABStRACT/EXTRACT-W) GP-0- ABSTRACT. FIGURE I IN THIS ARTICLE IS A MAP
~_OF~C URIST-AL THICKNESS ON KAMCHATKA SHOWING ISOLINES OF CRUSTAL THICKNESS,
...-ACTIVE:AND EXTINCT VOLCANOES. THE MAP IS'BASED ON DATA COLLECTED BY THE
KAMCHATKA TERRITORIAL GEOLOGICAL ADMINiSTRATION. : CRUSTAL THIC'KNESS ON-
KAMCHATKA VARIES FROM 24 TO 32 KM. THERE:IS A MARKED DIFF.ERE.N^E 114
THICKNESS-01F THE'CRUST AND RELIEF OF ITS BOTTOM IN THE.WESTERN AND
EASTERN REG-TONS OF THE PENINSULA. IN THE EAST AND SOU71-1 A THICKNESS
~FROM 24 TO 30 KM IS CHARACTERISTIC; THE SHARPEST GRADJENTS OF CHANGE ARE
OBSERVED-IN, THESE AREAS. THE ZONE OF'EASTERN KAMCHATKAN PENV'ISULAS FORM.
A UNIFIED STRUCTURAL ZONE WITH THE LESSE R KURILE~RIDGE AND THE VITYAZI
RIDGE*. THE BOTTOM OF THE CRUST PLUNGES IN A WESTWARD DIRECTIGNw IN THE
..CENTRAL PARTS OF KAMCHATKA ATTAINING A'DEPTH OF 3Z.-33 KN; WESTWARD IT
AGA I N-- E X PER I E-NCE S- I N- ANT--- SMOOTH- R-1 SrE.. THE CC-klTRAl- ZONE-- Of
'MAX I M
UM CRUSTAL.THICKNESS SPATIALLY CO NINCIDES Vil TH THE CENTRAL
KAMCHATKAN RANGE. IN GENERALt THE PENINSULA IS CHARACTERIZED BY A
I-GITUDINAL NNE ZONALITY OF ISODEPTHS OF BOTTOM OF THE CRUST. THEkE
IS
~,"-A RISE IN.THE CRUST UNDER MOUNTAIN STRUCTURES ON THE EASTERN PENINSULAS
AND ATTHE SOUTHERN TIP OF KAMCHATKA. ~THIS IS EVIDENCE nF THE ABS.ENCE
"RLOTS" UNDER- THEM -ANG A MARKED DEVIATION FROM 1SOSTASY. HOWEVERt
~WROOTSU ARE:OBSERVFD UNDER THE CENTRAL:KAMCHATKAN,RANGE AND IN PART
UNDER..THE.E.ASTERN RANGE. NEVERTHELESS.P.CRUSTAL THICKNESS IS OBVInUSLY
jNA0F.QUATE FOR ISOSTATIC.IEQUILIBRIUM OF THESEMOUNIAINDUS STRUGTURES.
lLmrl Act
jr 5--l c
a. 11-
Mon!
0101. U14C L*A S S I I P1.~r.)CES Sl 14G nATE--OZOCT70
ACCE.SSION NO-.-AT0108572
,ABSTRACTlEXTRACT-THE ASYMMFTRY OF CRUSTAL STRUCTURli: ON K4MC-i4TKA IS
DUE TO THE 14ETEROGENEITY OF THE "OCEANIC" AND "CLINT I NENT AL"
BLOCKS 01- THE EARTH'S CRUS-rv WITH KAMCHATKA BE-ING SITUATC0 ON THE
C.LINTACT BETwEEN THE-T63. ~HE TRANS VERSE~ 10NAL I tY IN KAMCHATKAN
-,ST..--',UC,IURE IS.REFLECTED IN THE RELIEF OF THE BOTTU14 OF THE CRUST, A
13EPENDE NCE BETWEEN THE SPATIAL-DISTRIBUTION OF ACTIVE AND EXTINCT
VOLCANUES AND CRUSTAL THICKNESS IS DEMONSTRATED.
UNCLASSIF-IED
USSR UDC 621.315.592
KYUREGYUl, A. -1. ,LAZZAREVA, 1. Y. STUCILUNIKOV, V. It.,
"Photoluminescence of Gallium Antimonide at a High Excitation Level"
Leningrad, Fizika i Tekhnika Poluprovodnik Vol 6, No 2, 1972, pp 242-247
Abstract: The radiation recorbination in GaSb under Inser e);citatioji was inves-
tigated. With an increase in the excitation power to 103-105 watts/=2, new
shortwave bands appear in the spectra. The width of che forbidden band of
GaSb defined by the peak energy of the interband (cxcit:on) radiation is 0.813 +
+ 0.003 electron volt.'. at 12* K and 0.800 4, 0.005 elentron ~volts at 80" K.
Yn the case of weak alloying of the GaSb WIWI Lellurillm, recombination occurs
in the spectra vith the participation of natural acceptors (0.034 and 0.070
eiectrGn voltz), dOeD acceptors (0.10 and 0.13 electron volts) and a shallow
donor (0.01 electron volts). The,effect of the temperature variation, degree
of alloying and excitation level on Hie form-of the phbtoluminescent spectra
is discussed. The results are compared with data obtained by one of the authors
It. Stucliebnikov, Author's Review of Candidates Dissertation of Mosco'.'r
State University, Moscow, 19691 for a comparatively Ilow excitation level by a
He-Ne-laser.
USSR UDC: 537-534.8
~RIFOV, U. A., KHADMIMUMAMEEDOV, a.. K1. , Institute of
Electronics, Academy of Sciences.of the Uzbek SS,R, Tashkent "Order of the
Red Banner of Labor" Stee University.imeni V. I. L6n Iin
"Channeling of Light Ions.in Tungsten, Molybdenum.and Cop-per Single Crys-
tals!'
Tashkent, IAN Uzbekskay SSR,.Seri-ya Fiziko.41atematicheskikh Nauk, No 3,
.1971, pp 60-63
Abstract: The paper presents the results of an investigation of the scat-
tering factor of ions as a function of type, ion energy,and dianeter; the
mass of the taa-get atoms and crystal lattice parameters in the case of
the friable face (112) of single crystals of tlLngsiten, Malybdelnm, Copper,
and silicon. Currents were measured by the method of double- modulation
at 3000K. Lithiun, sodium, potassium, rubidium,and cesium atoms were
-c
studied. The values found for the ratio ofthe gre&L-st ditimeter of tne
channeled ion to the width of the channel''Of the crystal face were found
to'be 0.77 for sodium bombardment of copper, 0.78 for lithium bombardment
of tungsten.and 0.79 for lithium bombardment of molybdenum, The corre-
1/2
USSR
ARIFOV, U. A. et al., IAN UzSSR, Ser. Fiz.-Mat. Nauk, No 3, 1971, pp 60-63
sponding figure for lithium cations and copper is 01.53, which means that
t6 scattering factor for copper is somewhat lower than for silicon in
spite of the larger mass of copper atoms. An anomaly in zhe curve for
the scattering factor as a function of the ion mass is observed which
depends on the geometry of the crystal lattice of~the target. Scattering
of heavy.ions by light targets is attributed to multiple collisions between
the ion and the surface atoms. A complete interpretation of the results
would require calculations which account for the increasing transparence
of the crystal face as the energy increases. In particular, single col-
lisions predominate at energies greater than 1 keV, while multiple paired
collisions are the rule at lower energies. Three figures, bibliography
of nine titles.
2/2
--72-
USSR UDC: 537.5-3)4.8
ARIFOV, U. A., MADMIMIUKHMEDOV, Kh. ~ Kh. , WUSOV
.j.A. I., Institute of
M_Wftv~
Electronics, Academy of Sciences of the Uzbek SSR, Tashkent "Order of the
Red Banner of Labor" State UniversityAmeni V. I. L Ienin
"Scattering of Alkali Ions by t .he Surface of NbTi and SiC Targetsil
Tashkent, IAN UzSSR, Seriya Fiziko-Matematicheskikh Nauk, No 4, 1971,
~PP 55-57
Abstract: The authors investigate scattering of alkali ions by the surface
of NbTi alloy, the binary compound a-SiC,and their components-in the
bombardment ion energy region E = 12-30 keV. The experiments were done
in a working vacuum of (1-5)-lOP7 mm Hg, The targetp, were hardened either
by electron bombardment from the back side. or by heating the! substrate.
The ion beam currents were of the order of P_ microarijiere. 7 Measurements
were taken by the oscillographic method and by.the 8elvanometric riethod
.(for small secondary currents). 'The coe'fficient ofJon scattering by
face (0001) of a-SiC was studied'asia function of thetyp-~'and energy of
1/2
USSR
ARIFOV, U. A. et al., IAN UzSSE, Seriya Fiziko-Tekhruchesk-ikh Nauk, No 4,
1971, pp 55-57
the primary ions. Scattering by the components of tle alloy was found to
be lower than for the alloy itself. In the case of IThTi, scattering by
niobium alone gave a higher coefficient, and titaniun alone gave a lower
coefficient of scattering than the alloy. Analysis of the results shows
that.the value of the scattering coefficient decreases with a reduction
in the mass of the atoms in the.target~and an increase in the mass of the
bombarding ions. The experimental data'are approximated by the empirical
formula
7M
where K in the scattering factor, y is an empirieal.*constant, m, is the
P is, 4
mass of the atoms in the target, m 2 -he mass of the bomharding ions,
andthe exponent n is a function of the,atomic number of' the ion. Three
figures, bibliography of five titles.
2/2
H11tui. li'~'WINMWMMM ulf.:OAA I.W.M; !V! 3411;, 1la t ;ft U-0 Ai tkllilll
HIM 1,
USSR uDc.612-015.31+612.ol4.4
MW j u* Physiology Division
OPSOI& A, Y M-AMUD011 E. S., and ISIAMGALMVA, F.
ciences, Uzbek SSR,'Tashkent
emy 0
"Water-Electrolyte Yetabolism in Persons From Different Climatic Zones After
Rxposure to High Temperatures"
Leningrad, Fizicilogicheskiy Zhurnal SSSR, No 8, 1971, pp 1,198-1,202
Abstract: Various indexes of wever-electrolyte metabolism were studied in
local-inhabitants in Tashkentskaya Oblant in Central;Asia and in persons -who
had come there from temperate and-cold regions';of the~Soviet Union. The =.a-
surementa vere made during the surmwr when teuqieratures of 28 to 340 and
relative htmidity of 30 to 40% prevailed. Newly arrived individuals from
temperature regions consumed 68.6% more.liquid than did the local inhabitants,
lost more than twice as much extrarenal water, and exhibited a slight decrease
in diuresis and sharp decrease in sodium (by 46-5%) mnd potassium (by 34.6%)
content in the urine. The amount of sodium and potassium in sweat was,
respectively, six times and twice as high as in the local inhabitants. Blood
sodium increased while blood -notassluadeereased. These differences in
metabolic indexes were much more pronouated in those who bad come from cold
regions. But after the individuals remained in the Tashkent area for over one
54
USSR
YLTNUSOV, A. Yu., (Editor), Department of Physiology, Academy of Sciences Uzbek SSR
F in
rUnktsii organizma v zharkom klimate (Functions of the Organism a Hot Climate),
Tashkent, IIFMVI Uzbekskoy SSR, 1970, 318 pp
in this book new data are introduced on the physiology of digostion, salt-water
balance ar4 metabolism, and the bioolectrical activity of the nervous system under
conditions of the zingle and multiple action upon the organism of high tempora-
ture in the an, bient medium. Light is stied on tho quostions of interdependence
and autora-ulatlon of functions, the character and peciiliarities of distribution
of water and salt in the organism, arkll the role of the autonomic nervous system
in regrulatinG salt-irater balance. Problems such as the adaptation of the organism
to high tomperature, the sequence of inclusion, and the characteristics of the
regulation of functions in this prodess are also covered. This collection is.in-
terAed for a wide circle of biologists and!physicians.
A. Yu. Yunusov, Z. T. Tursunov~ Nervous regulation of several functions of
an organism under high temperature
-9
USSR
YUINUSOV, A. Yu., "Mr!" Uzbekskoy SSR, 1970.. 318 pp
A. Yu. Yunusov, E. S. 1.1a.-chmudov, V. A. Ihodzhimatov. Hy;pothalamus-
neux-ohypophysical system and mineral composition ofthe kidneys of
rats. undor various torriperature:conditions'*~ ...... 10
'E. S. Makhmudov. Reactlion of sympathectomized dogs to water and salt
loods under condi~tions of solar-heating9*441*16406$ est..* 14
Z e T. Tursunov, T. A. Abdullayev.~ Effect of rexmova-I of Carevica-1,
vhoracic and abdom-anal aympathetio ganglia -on the f iltering-resorp-
tive fw;ction of the kidneys..A.,, ... it p.. 20
Re Akhriodov. Effect of re-moval of superficial cervical sympathetic
ganglia oa thormoregulation, in dogs..6 .... 28
R. A4i;*,)dov. Effect- of removal of thoracic spipathetic gilnglia on thormo-
regulation in dogs ...... 33
R. Akh-.edov. Effect of removal of abdominal ;sympathetic ganglia on
tharnore~ tion in dogs .......... ......... old 38
Z. T. Tursunov, T. A. AbduLiyov. Effect of removalof syxpatbotJc border
gan;
glia on the filtoring-rosorptiv6 function oT thelddnoys UrAer
corAitions oll' hig.h temperature... 42
T. is Abdullatrov. Effoct of
uyr--~cms on vlo filtering-resorptive f uiotion o:V thd, kidneys undor
corLditions of high ........0 47
2/9
USSR
"ONUSOV
A.. Yu., "FAIN" Uzbekskoy SSR, 1970, 318 Pp
,
B. V. Xadyrov. Participation of mochanoraceptors of t4ho ileococal tract of
-
the small intestin
0 in regulation of the retention and distribution
of water and mineral substances in theorganissm undar contiitions of
hich -emperature and ....... *os 51
Z. T. Tursunov. influence of high external temperaturo and insolation
on ~&he bioelectrical activity of the corebral corteX'....*.**..#O .... 56
E. S. Rald=udov. Hypothalamic neurosection and water content in the
organism of sympathectomized animals under corAitioha of solar
h ea ting. . . . 62
Z. T. Tursunov, D. U. Ermatova. k1teration ofbioalectrical activity of
the cerebral cortex in relation to the functional condition of the
digesttive, organs ...................... * ....
*
* 67
.
. Abdusanatova. Bioelactrical act o
~o
;ao.- during digestion
ivity s
under optimw. temperature conditions ...... 71
Z. T, T'ursunov, X. V. Abdusamatava. Bioelectrical act~iv4ty or the stomach
undur variouz foecW-Li.- regims for azinaLs undor conJitions of high
tovzi)oraturo. of V** 046 to $4 090*UP 000.10 4 4 04 9 40 0 .0 74
Z. T. Turs=wv, N. K. Sar"riddinov. Bioalectrical activILty of aftoront
and offorant nerves of the stomach uhdar the influa~ice of Idgh
tomparature, . . . . . . . . . . . . . . . . . . 79
L
USSIR
Wii USO V, A Yu. "FAUN" ULbakskoy SSR, 1970, 318 pp
R. kk~-,rwdov. Effect of high terVorature and insolation on the level of
gas exchange ard heat production in man under the clinatic condi-
tions o-' Uzbekistan ............. ............ 84
Z. To Turstmov, '". B. Nabiyeva. Effect of state effort oii the bio-
electr4cal activity of skeletal muscles ..... ... 92
R. A. ',~,-,nazarwva, R. lkjL-
A~ ~,GdOV. T GVOJ of gas. exi"hange heal production
ard ?uL-.onary respiration in children of various age! groups.. 97
R. A. ~Hamazanova, III. Akjimedov. Saasonal variations in gas exchange and
-Droduction in chilAren of various age.groupst.., .... to** ........
hea6 102
R. J"%kh-=-`,av. Reaction of thermoregulAtion mechanisms to ambient tenpora-
~ture duriny various .......... Io6
X. Sultar.~)v. Seasonal changes in thermoregulation in variou -species of
................ 0..... to ...... o 4, ...... 0..#* ... 04.
F. So DzL-Illilov. intensity of the o.Vgen requirement in various tissues
of cattle sheep and
L.
117
'harac~erieics o' water loss in the colored variety of
k, A.
coykL; izidQr condition5 of' high teaperature ......... .... 119
4 onal dyi-ia;ulci of wator loss'in Lho coypu organi 173
A. 1-11ater content in Uo orgardimi ot hyjw4hyroiti dogs tuidur
0. 4
~,ions of high terq)eratuxe ........
127
USSR
1U-NTjSOV, A. Yu., "FAN" Uzbekskoy SSR, 1970, 318 'Pp
Z. T. Tursunov, T. A. Vashcher-ko. Ir4icators of water-salt. exchange in
hypothyroid animals under ......... 130
V. A. Khodzhimatov. Functional condition of:the adrenal glands under
various temperature conditions ....... ....... ............... 138
X
G,, K zakarimova. Influence of water ani,salt loads on,the content
Ur
of raneral substanco5 in pLisma arA erythrocytes of dogs ..............
0 141
G. ',,~jxzakariniova. Xinoral content of the: tissuo water-salt depots
under functional loads Ln dogs..4 ..................... 4.........
y ' loir - U S
.u, yurju:;ov, 4 ashova. Manganese content in soirze U:,s a f
dog.-~ durJ g adap~aUon to conditions of prolorigod 501111, holting .....
3h. A'kiu-,.f.,dzhnrova. Soa5Qnal variations in theconterit or inijiarAl sub-
stancos in the -,;oat oil school-age children .... .......... a 152
E. S. &-lova, Sh. Akhnedzhanova. Seasonal and ago-ro1ated variaUons in
the concentration of electrolytes in the saliva: of school children. . . 156
A. Yu. Yunuzov, E. S. -Belova, V. A. F[hodzhymatov, N. V. Vasikkhanov, Ii. B.
Shift :Ui the volume of water and, sodiu-q chloride in
workers in hot shiap upon, ingestion of ~dditioaal coi4aon salt (First
....... 161
YLPNMOV, A. Yu., lli~'ANII Uzbe,zs'A-OY SSR, 1970, :318 pp
E. S. Eelova. N. V. Vasikkhanov. Condition:of the sodiumwpotasslum
exchan.;a worx"Cers Li hot shops upon inje6ition of~additional common
salL fSecond ar=ouncer~ent)..
.......... ................
3-66
E. S. Belova, V. A. Khod-.h--'Lr..atov. Shift in the,content of, mineral sub-
nce s :i~ a
s
a -i the blood upon ingestion of dditional co=Wn salt
(Th_,.'_-_ .-nrouncerI:.'rIt) . . . . . . . 044 . . . . . . . . .. . . . . . . . . . . . . .4 171
X. V. Shift in some b1cod. indices under ths multiple
torgerature and insolation as a runction of quali-
t a t Iv i) var,lal.-Ion in noUriLihIrIOnt4 pit of a f.. V .... .............. 174
Xviii. Kh. Turalchodzhayov. Charaoteriiacs of tho. retuntion
and ri:;di4tributioA oe liquids and minorals in tho orpniua during
work involving speed and 178
A. T.. Ra,-ulev, Ka. Kh. Turak~odzhaypi. ShJXt in the composition and
~~proporties of blood :Ln the process of training for sports as a
P~action of' the season ........ ....... .............
A. . . . . . . . . . .
180
1; Z. Xa::yrav. ~Iathod of investigating bile secretion in;& chronic
........................................................... 182
U. Z. The role of various parts of the small intestlq; in the
rogulation of bile, secretion... ......... 168
0/9
USSR
Y"NUSOV, Yu., Uzbokskoy SM, 1970, .318. PP
U. Z. Kadyrov. The fz'equency of rhythmic contractions of the small
tine in do-s
intes~' . .,;ith disturbances in bile, secretion...# w ....... 193
U. Z. Kadyrov. Secretory function of the pancreas during experizental
obstructive jaundice ................. ....... 0..4. 198
X.
G. Xirzakarimova, R. Yu. Tashinov.
Some indices of szilt-water ex-
chando when the outflow of bile: into the :bitest-Ane. is: disl'upted.. 204
U. Z. Kadyrov, K. Rallchimov. The role of bile in dij~estia~h at the in-
teatinal wall. . .........
........... !, .................
208
U.
Z.
-I"Yrov. K. Rakll=ov. Mlotor Punc4~-4on of the sirall intestine In
dogs urdor cond J4 t ions oil hizh. tomporature and inaoL~tion ........... 214
K. Ralkhivov, R. Phywlytic and Toolytic uctivJV of blood aaV-
laze during? -various .......... . . . . . . . . . . . . . . . 219
Seasonal shifts in the anzyrutia activity QC tho
pancreas
a;-4 ir4tes-tinal ChyLaa ixi white rats ........ ................. 223
K. Rarkhimov. _27f. ect of high tomperat,uro and inUolation pa the: phytol'ytio
and zoolytic activity of pancreatic amyla.ae in dOgU.:I.*.V ............ 231
Y. Rakhimov. elmylolAic activity of the intestine in white rats during
the winter and rwunor
7/9
USSR
MNOSOV, A.. YU., "FlUN!" uzbelkskoy SSR i1970,: 318 pp
X. RakhL--,ov, S. N. Safarova. Enzyirztic activity of %the pancreas and
j-ntcsz,:Lra1 c".ayj-.e in large field mice and white rats under the
................
eff at of solar haatin7 Z43
So N. Safarova. 'usylolytic activity,of blood in gray coipus during
various seasons ................ !.................. ft.do..#0 ............ 250
K. Rarchit:ov, U. Z. Kadyrov. influence of A,(71H on the f ornation and
seorotiori of pancreatic enzymes in rats ... . . . . . . 0 . 4 . 4. . . . . . 2.53
A. Yu. Y~ usov, U. Z. Kadyrov. N. A.-Korotina'L Processestof absorption
izn s,-wall intesLine during adaptation of the organism to high
Lre ................................... ........... 259
~9. A. Korotjna.
bzorption of roducts of t' e, hydro~lysis of food
products in, tho &-aall intestine under conditions oj~ high temperature
la-
.................. .......
264
A S-CLA%GV'. 1 secretory liver function ur4er~~he iiifluence
t
268
bile co~~Qllantu unier conditions of, high tompora-
271
Ion or water a
of ;,,Ii~coso aonconLratlon in abaurpt,
wi Lao .1 i-110r>LI-no or whito P 4 V 0 273A
~q
YUNTOSOV, A- Yu., Uzbekskoy SSR, 197,0, 318. pp
X. Umarova. laf of high temperature on the cotabined absorption
of water, r-lucosa, and some mineral salts in.white rats .............. 278
mo va
III. G. Xirzakar^ Umarova. Multiple influence of:high Lempora-
e on the absorption of water. glucose, ~%nd somo ions in the small
2.nLO5tj_io of white rats 283
AL
G. Hirzakarinrova, R. Yu. T imovo Absorption of water and glucose
from p~- sphate -buff ared solution in the sinall intes' no of dogs
Uadcr hiurlh 'emperatlure in a heat chamber arai in -,WII.Ught.....* ....... 289
0
A. Aii:zova. !~;pothyruo3is aind salt-soor tiug activity~ of i ho pancreas. Z94
4h., Z*--. ~Laayrutdinov. Characteristics of :sucrbtory funb~Lion Df..A.
I essar
ani greater cuarvatures of abomasum. in large horned animals ........... 298
K ' a Ugh-
R. S.. irar-Lmov. Change in nitrogen contgnt of rats in temperature
.................. .......
A
K. Ka~iyrova, A. S. Sadylkov. . Mlorpholo , of nerve elem4)nts :~n the
A gy.
s-L"n of rats under the influence of varip4s, tejkperaiures,: ...... 304
A. Ayapber-onov. _,Kfobility ;j--' bassic nerve processes ard efficiency of
' ;"he c%arebrai cortax in studying. oligophrenies as a fiinctif~n of the
degraa of oli ophrenia and concoratant speoell disturbanco5... 307
Ell -t of achool 01
-stross on tho Nncti r al cor4itlon of
who core 'al cortilox in childron with a history of batkinla disease... 3 1-;'
9119
USSR uDo 59i.8i,612.o14
ar
YM111US A- GITEUWft M 1.# Department of Physiology, Academy of
e ences. Uzbe)6SR
"Some Aspects of Cellular Pechantrams In.' the Change of Functions of an Organism
Under Different Temperature Conditions".
Tashkentg Uzbekskiy Biologicheskiy Zhurnal, No 21 1971v PP 27-29
Abstracti Tissue permeability of neutral red (Introduced intra-abdomina-11y)
was studied In test amimals (white rats) which 0bad begn kept in a temperature
chamber at vaxious -temperatures (from 20 t0,50 C at 3 intoryals). It was
found that tissues from the organu studied have a different level of pexn, ea-
bilityi liver> kidney-., intestine > musculus Jxtercostalis >femoral muzcle>
akin. This is an indication that there*are topographl.c features of tissue
pe=-eabUity. The one of kidney, muscular: Inter costalis, and skin is reduced
by 156 27, and 16.0,15, respectivelyp vhen the envirormental tonperature is 2-36 C,
At 26 C, the permeability of livert femoral musclep and intestine was reduced
by 24, 51,.and 17%, respectively. That of kidney and~nusculus into--costalis
was even further reduced (by 41 and 62%). Data of this type were collected
UDC 591-81i612.014
YMSOV A YU. and GITEII%N YE. I, Departtent of Physiplogy, Acade.,W of
Sciences. WbekSSR
"Some Aspects of Cellular Mechanisms in the Change of Functions of an Organism
Under Different Temperature Conditions"
'o 2, 197 PP 27-29
Tashkenty Uzbekskiy Biologicheskiy Zhurnalp 1, 1
Abstraott Tissue permeability of neutral red (Introduced intra-abdozinally)
was studied in test aninals (white ratz) ithich 0had 1xign kept in a temperaturc-
chamber at various temperatures (from 20 to 50 C at - 3 intervals). it was
found that tissues from the organs studied ILave a different leyol of pern.,-a-
bilityj liver> kicbiey -;, Inte3tine, > musculus intercobtalls -,, f emoral nme],e>
aki:n, This it; an Indication that there. mAopogxup~jc Jvaturez of tissue
pormeability. The one of kidneyp muscular intexcostalis, an(L skin IS redac-eU
by 158 271 and 16,0.,'# respectivelyt when the onviromiental. temperature is 23 .0c.
At 26 C, the pexneability of liver, femoral muscle, arA intestine was reduced
by 2.4's 51, and l?%:,f respectively. That.of kidney and..'lusculus intercostalis
war. even further reduced (by 41 and 62.r.). Data of' tW.s type uare collected
69
USSR UDC 591-1:591-54
(deceased~, RAKHIVIOV, K., and SAFAROVA,,S., Division of
Physiology, Academy of Sclences Uzbek SSR
"The Enzyme Activity of the Contents of the Rat Intestine During Repeated
Exposure of the Animals to HiGh Temperatures and Solar la-radiation"
Tashkent,, Uzbekskiy Biologicheskiy Zhurnal,, V01 16., 11o.1, 1972j, PP 39-40
Abstract: Rats were exposed daily for tuo hours during 30 days to high tempera-
tures (35-4oO) and intensive solar irradiation under Vie conditions prevalent
in Jun-July in Tashkent. As shown by investigations of the contents of the
srumill. intestine, the aL-.jlolytic and lipolytic activities in the intestine
decreased under the effect of exposure of the ani.,iwas to heat and solar radia-
tion. The exaylase content in the intestine.-after decreasing, to 51.0 + 6.2ap'
of -that for controls on Che first day of the. experiment, dropped to a ;;inimum,
of 38-5 + 4-2~ on the 5th day and then gradually increa.,~cd- it amounted to
48.8 + 6.,?, 59 � 7-3) 84.6 + 10.2, and 81A +.10.0A on the 10th, 15th, 20th, and
L.6,4
30th day, respectively. The lipase content was 23-0 + . j, of that for controls
after a sinGle exposuzre P-nd tben becam 28.4 + 2.4, f7.0 + 4-3, 39-3 � 5.6,
42.o + 6.41 and 4i.9 � 6.3% an the 5th, 10th,-.15th, 20th, and 3;Dth day,
respe7etively. Mie increase in the secretion of digestive enzymes after an
1/2
5-1-
77"'
USSR
4 - -K.
YUNUSOV, A. Yu, et al., U20bekskiy Biologicheskiy Zhurnal, Val 16, DIG 3, 1972,
PP 39-40
initial decrease indicated adaDtation of the anim-als to the heat and irradiation.
Daring the first 10 days of the experiment, the body tenTerature of the animals
during exposure reached 41-5-42.0%. Profuse valivation'and lack of motor
coordination developed. During the period, fran. the 10th to the 30 dwf, the body
temperature did not. rise above 39-5-400, SWivattion was noderate, and motor
coordination was not distuxbed.
.2/2
'R
USSR UDC 6Ta -13+"T7 - 37
IfIRTUSIN, R., YMITUS(W L. YU.. and ATKU11ODL-Mr- B. I TLshlterit Institute of
Textile and Light Irijush~r
."Production of Grafted Corol~meers of 1-11atural Sill~ from, Pome Monomers"
Tashkent, Uzbeks'rki,Y KhLmicheskiy Zhurnal, No 5, 1970, PP 91-93
Abstract: The copolyrLar j1raftim-7, -uas cat-cied Out by pLi!tcirr ~-,tw zill-I in a
glass or stain-less steel vessel emi ewering it with an.e.ad_siom consistins
of- 0.01M-0.1r`7 ide. 1-3~, Of tvw~ I' aricr, rr-im
h =;~en 'Cerox- mnc
'I'As -LDr Ilt C'. 'J
-r vas taken out, wa.81,uJ thorom-hly urA dol'rn to ~-.I C- 01, 1 L
thon the f ibe
veidlAt. I-dien. st-y-.ene wa-3 used as t'he lnonb'mc~r. Cptim;13.
1m;s: dwr at ~ or, olf the process 15 min,, emO_sion consiotin,-- 011" 7
peroxide, 2 .-rij styrene a-1-1-:111 emulsifier. Jzj cje~n- "a' it I'-, I'd tha-
'a Zoa". U
my be "V-rn
afted on ailk using such mqlnoners~ vA.
crylat,-, =ethy--_--2tacryLvcc, amd the, canditions, reported! for sty-~-,-ne. Graf-1-
of these copoly,-,.ers doe.,' not affect Vie appearance: nor; the P,,ft~,vhtinloul propcv_
ties ~of nilIk fibers.
12- _:0i4 UNCLAS'S I E PR ESSING DATE--300CY70
61C
-U-
-'TITLE-P,REPARATION OF GRAFT COPOLYkERS OF,NATURAL SILK
AUTHOR-(03)-YUNUSOV, R.YU., YUNUSOVt L-YU I AlKH0DZHAYc:Vr 8.1.
-'..CGUNTRY- OF INFO-USSR
:~.-SOURCE-IZB. KHIM. ZH. 1970, 14(119 43-5
"'DATE PUBLISHED---70
,.,SUBJECT AREAS-MATERIALS
-~'TGPIC TAGS-NATURAL FIBEP, GRAFT POLYMERIZATIONt METHACRYLIC ACID,
ACETATE -ACRYLGNITRILEv AMINE
MARKING-NO RESTRICTIONS
,-POCUMEN'T CLASS-UNCLASSIFIED
~"PRJIXY REEL/FRAME-2000/1594 STEP NQ--UR/0291/70/01.4/001/0043/0045
CIRC ACCESSICN NO--AP0125216
jJN
014 UNCLASSIFIED PROCESSING DATE--30OCT70
-CIRC ACCESSICN NO-AP0125216
~ABsTRACT/EXTRACT--(Ul GP-0- ABSTRACT. THE 2 CONSTITUENTS OF THE NATURAL
SILK (F18ROIN AND SERICIN (SILK GELATINJ) CONTAIN FREE C0 SU82 H GROUPS
AND FROM SALTS W
-ITH FE PRIME3 POSITIVE. THE IMMERSION OF SILK IN
1-2PERGENT FE SUBZ (SO SU84) SU63 SOLN. AT ROOM TEMP.p FOLLOWED BY
GRAFTING,WITH METHACRYLIC ALID.(I) OR VINYL ACETATE (111 IN THE Pp'ESENCE
OF, H SUB2 0 SU52:AND THE REMOVAL OF I OR II.HOMOPOLY14ERS GAVE GRAFTED
SILK r-ONTG. SMALLER THAN Or-, EQUAL TO 25PERCENT I OR SMALLLR THAN OR
'EQUAL TO 5PERCENT 11 UNITS. THE ATTAMPTED GRAFTING~'OF SILK WITH H SUB-l
-C:CHCN OR H SU8Z C:CHCONH SUB2 WAS NOT SUCCESSFUL., ONLY:SERICIN REACTS;
-..iJHE REMOVAL OF IT FROM SILK LEFT. FlaROIN, WHICH,crjuLD NOT BE GRAFTED
~WITH ANY OF THE.ABOVE 4 MONOMERS.
-f i E
INCLAI-sl -D
1/2 023 UNCLASS[Ft~[)' PAOCESStNG 0ATE--23OCT70
TITLE--DEHYDROGENATION OF CYCLOHEXANE UNDER PULSED AND FLOW CONDITIONS -U-
A.S., YUNUSOV M P.
COUNTRY OF INFO--USSR
KATAL. 1970, ll(I)t 1261-3
DATE PUBLISHED - ----- 70
'~SUOJECT AREAS--CHEMISTRY
-.-.,TOPIC TAGS---CATALYTIC DI:HYDROGENATION, CYCLOHEXANE, CATALYST ACTIVITY,
--CHROMATOGRAPHY, ALUMINUMv MOLYBDENUM, NICKEL
4ARKING--NO RESTRICTIONS
',:'DOCUMENT CLASS--UNCLASSIFIED
P.ROXY REEL/FRAME--1997/0535 STEP NO--UR/0195/70/011/001/0261/0263
--AP0119454
C.1 RC ACCESSION NO
UINCLASSIFIE0-
2/2 023 UNCL~AS.SIFI ED PROCESSING DATE--230CT70
CIRC ACCESSION NO--AP0119454;
~ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. THE CHANGE IN CATALYTIC ACTIVITY
-Or- A AL-NI-MU CATALYST IN THE INITIAL STAGE OF CYCLO14EXANE
DEHYDROGENATION WAS STUDIED BY USING~PULSE CHROMATOG.; AFTER AN
INTRODUCTION OF 9-10 PULSES OF CYCLOHEXANE (SIMILAR TO 0.04 WT. PERCENT
OF CATALYST), THE ACTIVITY OF THE CATALYST BECAME CONST. THE ,
DEHYDROGENATION ALSO WAS STUDIED IN A,FLOW SYSTEM. UNDER THESE
CONDITIONS, THE DEHYDROGENATION GAVE A LOWER YIELD OF PRODUCTS AND HAD
TO BE PERFORMED AT HIGHER TEMPS* I. ~FACILITV: SRE.ONEAZIAT.
.NAUCH.-ISSLED. INST,
NEFTEPERERAB* PROM. TA-SHKENTi USSR.
UNCLASSIFIED
nrl' r
USSR UDC 632.3
TKACMKO, H. F., and LU~LUSOVA. R.., All Union Institute of Plant Protection
and the Union of Scientific Research. Institutes of Chemistry
"Effectiveness of Topsin Against the Verticillium Wilt of the Cotton Plants's
Moscow, Khimiya v Sel'skom Khozyaystve, Vol 11, No 8 (118), 1973, pp 43-44
Abstract: The systemic fungicides topsin NF-35 (thiopbonate) and topsin
NF-44 (methylthiophonate) were found to be highly toxic against the verticil-
lium wilt of the cotton plants. Both preparations exhibited systemic action
(they were absorbed through the roots, passed through the plants fighting
their infections). In the lysimeters these preparations lowered the disease
to 0-9%, improving the yield of the crop. In,field trWs topsin NF-44
lowered the infection of the cotton plants by 30%, their yieLd increasing
by 46%. The discrepancy between the field and laboratory results is due to
the insufficient depth of the penetration-of this fungicide in field trials.
USSR UDC: 547.944/945
SULTANYHODWAYE
EV, M. N.) UFSOV 14. Sy YUNUSOV, S. Yu., "Order of the Red
Banner of Labor Institute of the Chemistry of Plant blatorials, Uzbek SSR
Academy of Sciences
"Alkaloids of Aconitum Karakolicum"
Tashkent, Xhimiya Prirodnykh Soyedinenly, No 1, 1973, pp 127 128
Abstract: Two new alkaloids have been isolated from tlie alkaloid sum of
Aconitum karakolicum collected in two different locales of Kirgizia. The
first, from aconite tubers taken from the.Terskey Alatau Yountains, has an
empirical formula 03411 7012N, melting point of 195-19600 (acetone), and is
given the name llaconiffnll. Mass spectral analysis suggests the followin.-
partial structure:
Ge 3 all
2 5
A 20H
1/2
USSR
SUMNICHOI)ZHAYEV, M. N., et al, Khimiya Prirodnykh* Soyedinenily, Ito 1, 1973,
pp.IZ7 128
The second alkaloid vas isolated from tubers collected in the Kungey Altau
Mountains and has an empirical formula C20350511 and melting point of 222-
2240C (acetone). The base has been.given'the name "karalkolidine". Chemical
analysis and IR and MIR spectroscopy. suggest the follov#g structure:
01 OCH3
H5 eqiAi
G2
011
2/2
USSR
UDC: 621-315-592,
AZIMOV, S. A., YUNUSOV. 14. S., TURSUINTOV, 1.1. A. ,andZULTANOV, N. A.
t
S. V. Starodub 'sev ;i6i~~finical !Institute, tashkent
."Some Characteristics of Silicon1lith Palladium Dopi~ftgll
Leningrad, Fizika i Tekhnika Poluprovodnikov, No 8, 1972, PP 1438~
1441
Abstract: The purpose of the experiments described in this paper
is to acquire more detailed information concerning the eleciro-
U
physical characteristics of silicon doped with po lladium. _Sub-
ject sp-ecimens were n-type silicon monocrystals with resistivity
of 1-2000 ohm-cm nnd p-type cilicon with a reshativity of 10-10,000
ohm-cm, having a disiocation density of 104/cm and irj oxyeen con-
tent of 1-5-1016 atoms/cc. The palladium with which the crystals,
were doped was 99.99&/~ pure, arid the doping was done by diffusion
saturation in the interval of 1100-12500 C and in the time inter-
vals of 30 minutes to 20 hours in quartz ampoules in an atmosphere
of pure argon. The effect of the palladiumonthe electrical char-
acteristics of the silicon,.the,solubility oi the palladium in the
silicon, and the effect of thermal processing, were investigated.
1/2
USSR UDC 547. 944/945
and YIJIIU30V, S. YU., Order of the
SULTANKROMMYEV, M. N.,
titutl6iji jxQWKd%jW
e 0 em a
labor Red BarLqer ins try of Natural Froil,acts, Acad. Se.
UZS&Z
ffKaracoline a Novel Diterpene Alkaloid From Aconittur Ka-racolicitn"
Tashkent, Khimiya Prirodnykh Soyedinaniy. No 3. 1972, PP 399-400
Abstract: A new alkaloia -- Karacoline'-- was isolatel from t1he tubers of
Aconit=. Ka-racollcum vdth a m.p. 183-18V. Tbis alkaloid. contains an N-ethyl,
a tertiary C-methyl, a =-tho>Wl -and three lVdroxyl grou s. Its triacetate
melts at 165-1690, and the diacetate has a-Tap. 119-12:2E. The following for-
mule is posti--lated for the new compound:
OCH
'OH 3
OH
'OH
C H OH
2 5
USSR MC 547-944/945
TEL'NCV V. A. and YUMMOVt S. YU., H;
t e&Banner of Labor
institute Of Plant Chemistryp Uzbek:Academyof Sciences
'Alkaloids of Aconituz Tranzscheli and A. Anthroideum!''
Tashkent, Khimiya Prorodnykh Seyedineniy, so 3, 1971, p 383
Abstracti AVcaloid content of these two unstudied plant,species was determined
fro& samples collected in the Pamir-Altay (roots of Acomitum Tranzscheii)
and on the Dzhungarskiy Ala-Tau Pange (eaky vegetation of A. a.), the former
yielding 0.9% alkaloids of the dry samplet thwlatter 0.%.
Three individual alkaloids were.separated from a 4,95-gram alkaloid
itass derived from A. a.i condelphine:(5.1%.of the xass)j a base C31H35 I
(YI
named anthoradibei and a base ~A 0 N 6f the zas~)-
Z' 411
USSR UDC 547.943
IBRAGDOVA, M. U., YUNUSOV.-M- S., and YUNUSOV, S. Yu., '.'Red Banner of Labor
Order" institute of PlaaE de'Mli� 'ry, Uzbek.SSR Academy of Sciences
"Alkaloids of Corydalus Pseudoadunca and C. Gortachakovii1f
Tashkent, Kh-imiya Prirodaykh Sayedineniy, No 4$ 100, pp 438-440
Abstract: From C. pesudoadunca taken during the fruitbearing and budding
stages, and C. oortschakovii in the blossoming stage, 11 alkaloids were
isolated by conventional methods. The alkaloids front C. pseudoadunca in the
Cruitbearing stage included d-bicuculline d-a-hydrastize, coramine, prota-
pine, I-adlumidine (determined by IR),. and. I-scoulerine '(IR).. These same
alkaloids were found in the extract of C..pseudoadunca. 4n the budding stage,
althou&h in different concentrations, From C. gortschakovii, the alkaloids
isolated were isocorydine, 1-adlumine, d-bicuculline, pTotopine, sendaverine
(1R), and a base melting at 240-242*. UV and:IR datai, !iielti-ag points and
gram amounts were also included.in.the report.;.
9
1-911 ~-M
UNCLASSIFIO',
L!,(Z PR-I)CESSING DATE-13NOV70
Tl -STRUCTURE OF TALATISAtMIINE -U-
TLE-
M.S. YU114usovo s Ylj~
OF INFO--USSR
IM. P'R I
1970F
i~-A T EPUBLISHED ------- 70
:SU3JECT AREAS--CHEMISTRY
NUCL EAR :MAGNET IC RESONANCE, AMINE
40PIC TAGS-T-H0Lr-CULAe. __STkUCT0E p;
DERIVATIVE, GENZE,',jE OERIV.,XTIVE, HYDROXYL.RADICAL
t CNI T R 0 t- MARKING--~-iN3 PESTUCTIC)iS
DOCUiJENT CLASS--UNCLASSIFIE0
:-PROXY REEL/FRAME-3004/0173 STEP
CIRC ACCESSICNN llf)--AP0130932
-2/2 012 U'IICLAS i1 PROCESS i%G 0ATE-13NOV70
S F EO~
CIRC ACCESS [ON NO--,A.PO 130932
'UP-0-- A3STkACT. OR AND MASS .-SPECTPAL
UNVESTIGAT.Mi OF TME TITLE C QM P bI ITS C rBZr 6(:.%ZJYLACETYL? AND
PYIWACET' LTALATISAF I-L
18 OXG DERIVS., A-ND ITS PYROLYTIC PPODUCTS H
IS0PYjM4CETYLJAL-ATI SAMIliNE ,A'110 SUGGE --D THE
~-STRUCTURE FOR 1. FACILITY: IN T KH IM. RA S T:. VL'.SH("
'HESTVt
TASHKENT USSR-
--UNCLASSiFIED--
1/2 042 UNCL,ASSI F.IF.-[):, PROCESSING DATE--040EC70
TiTLE--EFFECT OF GAMMA RAYS 0 NTHE VOLT- AMPERE CHAR&CI-ERISTICS OF olOoES
_U_
AUTHOR-(03)-MIRSAGATOVt SH-Ap ISAMUKHAMEDOVA D.K.~r YVNUSOV, M.S.'
,COUNTRY OF INFO--USSR
..~,SOURCE-IZV. AKAD. NAUK UZB. SSR, SER.~FIZ, MAT. NAUK 19TOv 14(2)t 57-9
"DATE :PUBL ISHED ------- 70
SUBJECT AREAS--ELECTRONICS AND ELECTRICAL ENGRol Ify 5 1 C'S
~TOPIC TAGS--VOLT.AMPERE CHARACTERISTICt~SEMICONDUCTOR DIODE, SILICON
GAMMA IRRADIATION, ATOMIC- DEOECT, ACTIVATIONIENERGY, CARRIER
OENSITY, CAPTURE CROSS SECTION
ZQNTROL 14ARKING--NO RESTPICTIONS
CLASS--UNCLASSIFIED
PROXY_.REEL/FRAME--3007/t87t S,TEP NO--UR/O.L66)'TO/Olet/002/0057/0059
CIRC ACCFSSION N0--AP0137068
Z UNGLAS*SIPIEL)
212 -ott2 UNCL ASS I FIED ~PROCESSIN~Gy DATE-04DEC70
:CIRC AICICESSION' NG--AP0137068
-T/EXTF-PACT--(U) GP-0- ABSTRACT, THE
f,3STRA( VGLT 11413PRI, CHAIRACTEI-RISTICS OF
2 TYPES OF SIC 07-00c,~ WERE Ir) PR[ME4
STUDIE0 BY HIGH GAMMA~,RAY,DOSESI
-10 PRII"E9 Rt AND BY CURRENTS.OF 10 PRIME9 --10 Pl'-',[liE f'41:-:G-ATIVEl A IN BOTH
DIRECTIONS. DEFECTS WERE FOUND WITH ACTIVATION~ FNERI~IES OF FORMATION OF
0.03 PLUS OR MINUS O*OB AND 0o3 EV. THE DIFFERV~CES BETWEEN
THEORETICAL ANO EXPTL. VALUES IN CkOSS S~ECTIIJNS (IF THE DEFECTS ARE
SUBSTANTIATED THROUGH THE DIMINISHING OF IEOUIL. (;ARRIF:R CONCN. OR
THROUGH VARIOUS INACCURACIES. FACILITY: ~F]1.7'TEKH. INS-T. IM.
STARODUf3T5EVA, TASHKENTt USSR.
UNCLASSIFIED
USSR
z V M Pd~L' n.v.' YLUTUSOV, S.Yu., SAMATOV) A.S.~ Order of Labor Red
.'...7M_2e!r0_~ins;tut(e of Chemistry,of Plant Substances., Tashkent, AcademV of Sciences
-Uzbek SSR
."Mass Spectra of Alkaloids of the Songarine Type. Structure of Songoramine"
Tashkent, Khimiya Priro&,iykh Soyedineniy, Wo 1., 1970, pp 101-!.lCr7
Abstract: Analysis of alkaloid mixtures extracted,from the. tubers of Aconitum
karakolicum which grow in the upper regions of the Tyup River (Tersir~ey Altau
Range) showed aconitine, songorine and an alkaloid with a melting.point of 211-2120C.
-This base is identified as son.1yoramine., Astudy. was made of,the mass spectra of
songorine, dihydrosongorine, their diacetates, F-desetbylsongorine- ,, deutero analogs
-.,.!-of songarine and dihydraBongorine. Analysis of chemical an&spectral data shows
~:that:songoramine has the following structure: o
CH,
0
X.
R, R2- H
Diagrams are given oho-idrig the fragmentation of songorine an~L its derivatives.
USSR UDC 547,944/945
MURAV YEVA, D. A., PLEYMNOVA, T. I., and Pyatigorsk
~Pbnrm-qceutical Institute of the Order of.LOor~Red Bannej~ Institute of
Chezistry of Natural Productst Academy of Sciellees UZSSR
"Novel Diterpene Alkaloid From Aconitum Hasutum"
Tashkent$ Khirilya Pri--odAykh Soyedineniy, No 1, 1972, PP 128-129
Abstracts A now alkaloid ~mz isolated from Aconitux nanutinii0Vit3ch et Rchb.,
uhich the authors nam-ed aconasina. Its malting point IsA.48 t it is soluble
in wthanol-t chlomform, slightly soluble 1n benzenet axetic ar~hydxride
ad insoluble in ether.and hexane. Tho following atructure has
and acetonet aL
been assigned to this alkaloids
OCF3
CH30
OH:
C2r
WH
01i
USSR tMC 54?-04/945 + 543-51
YURSOV, H. S,, RASHKESs YA. V., and MUSOV, S. YU.j ~xder of the labor
Tftt6i~~titue of the Chemistry of Vlatural Products, Academy of
Sciences UZSSR
"FrWentation Features of Ring, A Substituents of Lycqctonin Alkaloids On
Sleet-ron Ilpact"
Ta--hkee,,, Khiniya Prirodnykh Soyedlneniy, NO it 1972, pp 85-67
AbstractIf By studyin rg zass-slectrroscopic Tr4gmentation of lycoctonin allkaloids
it:was established that the care with which a substltuejit at C,-I is elininatled
depends on its configuratioa, increassing, with.the rsize of the substituent.
Changing the orientation . of a C-1 aubstituent fmm to stabilizes
the molecular ion and us a result the peak at M-17 is ddulreast~.dt while the
one at M-15 is incr,3ascd. 'remperature- changes havo littldt or no effect on
cat a
the intensity of %azio4s pe"Is. I ams spectr,
&xC
of three ctiterperie aikalojas usefui in charactorIzing tho,subGtItuent at C-4
are revorted.
1/1
USSR UDCi539.293t621.382/383
ADIROVICHt E. I. t ARONOV, D. A., Physicoteblinical Institute
Jxeni S. V, Starodubtsev, Academy""~OS:Uzbsk SO
o Sclc6inZ
"On -the Theory ef an Optoelectronic, Regenerative P-rn-p. 'Strao-ture"
'k Uzbekzz koy SSR, Seriya Fiziko-IMatenaticheskikh
Tashkent, Izvestiya Akademii 11aw
Hauk# No 1. 1972, pp 50-V
Abstract: The exticle develoDs the theory of a monoblock. ragene,-ative optron
based. on three-layer (p-n-p) iransistor structures. A p-n-p stnictuxe idth a
radiative p-n Junction as emitter and a photosensitive collec-tor j-mnotioi is
considered, The current-voltage characteristic of such an optron is, conc'id-
exed. It is shown that the shaveof the. vurrerA-Yolta~!,,e chaxacteristic (Faa-
timdarly its characteristic points) can be,controlled by va~,.-yinr, the series
resistance of the sti-LicU'ure- The IV CNIMCteristic rAlm be controlled also by
external illumination, the spectral- composition.of whical corresponds to the
absorption in the collector junction.
1/1
USSR UDC. 51,155.001.57:681-3.o6
."Recognition of Informative Features From the Level of a Standard"
V sb. Vopr. kibernetiki (Problems of Cybe;rnetics--colle.ction of works),
_Vyp. 43, Tashkent, 1971, pp 65-71 (from,FL7,bi-Kibernetilia, No 12, Dec 71,
Abstract go 12V1009)
Translation: Methods are considered for recognizing objects from the level
of a standard for infornative features. Vario-us.algorithms are proposed
for standards constructed on the basis of, some t(jaching sequence. The
proposed algorithms have been successfully,used for experimental medical
diagnosis on the BESm-6 computer. . A. Kh'alamayzer.
USSR
WfILOV, M. M. , YUSUSOV, R.
"Search for the Optimal Value of the r Threshold in the Refinement of
Subdivisions"
Vopr. Kibernetiki [Problems of Cybe".etics Co
-ilection of Works], No 51,
Tashkent, 1972, pp 78-81 (Translated fr6ia Referativnyy, Zhurnal Kibernetika,
No 4, 1973, Abstract No 4V710, by.the authors).
Tran5lation: Selection of the optimal value of the E threshold in refine-
ment of subdivisions produced us*ing taxonomy algarithins, it is Suggested,
can be performed using aerationallocal search procedures in a grid. An
example of realization of a searell system for,the two-dimensional case is
presented.
109
USSR UrC, 678,13+677-37
IIFIKJSOV~ L# TLJ., aiid AYMOD&LAOIEVP B. 1~.~ Tash:kent Institute of
Textile ard Li(~tit 1-ndustlj-y
"Production of Graft-d Copolymvem'of jjat,,-._.al Silk fro--' sorie:
Tashkent, Uzlekskiy YhJ mdcheskiy- '21jurnal., I'To 5) 3-970, 91-93
Abstract: The copol~~Tier c-raftJ11- ~,,as clirried out, by p2a(:;-J.m7 rav si Lir, j, a
glass or stal'Illess S t. e C,]. VeSGCl E~-,Ia:coverinl,r it th ~m erml,:ion C On S is I
of hydxc:.-_.n peroxide, 1-3~ 0' t', e monom!r, and 0 ~'2,-
(alkamon-C-52 arnis S.,,,_ture vas he-ated ~Ior vanir~; t
then the fibor vas t~!:- out, tho_ruv,,Jay and do,,a-, to a
wzeif.;ht. w 1~3rl st~yrr_nrle used as the monozer, Optin-al (~cmdi-faznr, w,.-_~re ~Ls :~ol-
6 -it Ion Con-4
"OWS: dur,-JiOll of thC -Ijfccz~ss 15 e- Ir.
peroxide, 2-74P stynen~2 and ITI it Ills foun-I t imt
ccppolymerz ray be Fz-mffted on sill'. using an-:ch monomrs as styrene, butyhz:~_~t!~-
evyllate, Im-urlyly-fetacr k,
y1a 'e, and t-he conditions rep0rtx;!d for st~v.rcne. G~~-,_f n-r
of these copolymers does not affect the appearance nor U-4- mechanical proper-
ties of siE-~ fibers.
ION" OWN
1/2 014 UNCL As*s_l_~IIED PROCESSING DATE-30OCT70
JITLE-PREPARATION OF GRAFT COPOLYMERS OF.NATURAL SILK -U-
-"AUTHOR-103)-YUNUSOVt-R.YU.v YUNUSOVv L.YU.t AlKHOULHAYEVY B.I.
CUINT RY OF INFO--USSR
',,'SOURC E_ I Z B. KH114. ZH. 1970, 14(l)
4
TE PUBL ISHED--70
vS.U8JECT AREAS-MATERIALS
JOP11C TAGS-NATURAL FIBER, GRAFT POLYMERIZATION, METHACRYLIC ACID,
,;":-.-ACETATE# ACRYLGNITRILE, AMINE
,..CoPNTRCL PIARKING-INO RESTRICTIONS
CLASS-UNCLASSIFIE0
VRPXY RE.EL/r-RAME-2000/1594 STEP NO--UR/0291170j'OI4/001/0043/0045
ACCESSICN NO--AP0125216
UNC LA SS F I E 0
212 014 UNCLASSIFIED PROCESSING DATE--30OCT7C
:CIRC ACCESSICN NO-AP0125216
-_,A8STRACT/EXTRACT-(U) GP-0- ABSTRACT* THE 2 CONSTITUENTS OF THE NATURAL
SILK (FIBROIN AND SERICIN (SILK GELATIN)! CONTAIN:FIAEE CO SUB2 H GROUPS
BAND FROM SALTS WITH FE PRIME3 POSITIVE. THE IMMERSION OF SILK IN
-1-2PERLEN1 FE SUB2 (50 SU84) SU83 SOLN. AT ROOM TEMP.t FOLLOWED BY
GRAFTING WITH 114ETHACRYLIC ACID (1) OR VINYL, ACETATE~ 111) !N rHE PRESENCE
OF- H SUB2 0 SU8Z AND THE REMOVAL OF I OR 11 HOMOPOLYMERS GAVE GRAFTED
SILK CONTG. SMALLER THAN OR EQUAL TO 25PERCENT I OR~SIMALLER THAN OR
EQUAL TO 5PERCENT 11 UNITS. THE ATTAMPTED GRAFTING~OF SILK WITH H SU82
C:C_HCN OR H SU62 C:CfiCONH SUB2 WAS NOT SUCCESSFUL. ONLY SERICIN REACTS;
JHE REMOVAL OF IT FROM SILK LEFT FISACINI WHICH COULD NOT BE GRAFTED
WITH ANY OF THE ABOVE 4 MONOMERS.
UNCLASSIFIEO
77-""
USSR UDC: 547-944/945
zu. "Ord
RAMATULLAM, T. U., YUNUSOVI 3 r of the Red Banner of Labor"
institute of the Chemistry of Plant Materials-,*:Uzbek SSR;.A-cademy of Sciences
"Alkaloids of Gentiana Olivierill
Tashkent, Khimiya Prirodnykh Soyedineniy, No 1, 1973, pp~64-67
Abstract: The chloroform part of a mixture of alkaloids. of Gentiana olivieri
was treated with chloroform; the sum was not completely dissolved, Gentiananin
was isolated from the undissolved portion. Tile chloroform soluble part of the
alkaloid sum .-as treated with a phosphate buffer with resultant separation
into fractions by strength of alkalinity. The resultant bases are identified
as gentioflavin, gentiananin and anew base C2-012ON204 which the authors call
.."oliveraminell.- Analysis of U`V~ IR, 14MR and mass spectra suggest that the most
probable structure of this compoundis
C14
, ,I '! -0
r, C; I - 6,q
-2
N
IA
.. .1"wMINN
USSR UDC: 54.7-944/945
ZIYAYEV, R., ABDUSAMATOV, A., YUNUSOV, S
.,_Yu "Order of the Red Banner of
Labor.". Institute of the Chemistry of Plant Materials, Uzbek;SSR Academy of
Se-ences
OLizinin --a new Alkaloid From Liriodendron.Tulipifera"
Tashkent, Khimiya Prirodnykh Soyedineniy, No 1, 1973, pp 67 72
Abstract; A new alkaloid which the authors have named 111irinin" was isolated
from the alkaloid sum, (chlQroforin extraction) of leaveB~of the tulip tree
(Liriodendron tullpifera) -Ath empirical formula CiqH2111il, melting point 152-
15490 (alcohol),
_.pt,722_ - 550C (e 0.089, chloroform). Amalvols of UV, 111, NW1
D
and mass spectra showti that liftnin has the structure of~5-hydroxj,--216-
dimethoxyaporphine
Ho ti - CH,
7
USSR 547.944/945
SUMNKHODWAM, M. N., YUNTJSOV, M. S., ~MSQV. S.--Yu.~, "Order of the fled
Banner of Labor Institute of the Chemistry of-Plant Materials) Uzbek SSR
Academy of Sciences
ftAlkaloids of Aconitum Karakolicum"
27 128
Tashkent, Khimiya Prirodnykh Soyedineniy, No 11 1973, pp 12
Abstract: Two new alkaloids have been isolated from the,alkaloid sum of
Aconitum karalrolicum collected in two different locales of Kirgizia. The
first, from aconite tubers taken from the Terskey Alatau,lloumtains, has an
e*irical formula C304701211, melting point of 195-19600~(acetone), and is
given the name "aconifin". Mass spectral,analysis suggosts the following
partial ritructure:
1 300-43
o
il,
~A
1/2
USSR
SULTANKHODZHAYEV, M. N., et al, Khimiya Prirodnykh Soyedineniy, No 1, 1973,
pp, lZ7 128
The second alkaloid was isolated from tubers collected in the Kungey Altau
Mountains and has an empirical formula 020350511 and melting point of 222-
22490 (acetone). The base has been given the name "karakblidine". Chemical
analysis and IR and JOIR spectroscopy suggest the following structure:
OH
OH -70H
H
C2
2/4
USSR UDIC: 547-944/945
V. G., MA S. a. ISOV S Yu "Order of the Red Banner
KHODZHAYE AYEKH
of Labor" Institute of the Chemistry, of Plant Materials,.Uzbek SSR Academy
of Sciences
"Investigation of Alkaloids of Thalictrum Longipedunculat-um. Structure of
Thalicsin"
Tashkent, Kbimiya Prirodnykh, Soyedineniy, No 3, 1973, pp~441-442
determine the structure of thalicsin
Abstraet: An attempt is made to
isolated from the aerial part of Thalictum lonkipedunculatum., Elementary
analysis gives the empirical formula 02].H]_90611~, but according to the mass-
spectrometrically determined molecular weight the formula should be C21H1905N.
An analysis of the UV, IR, MIR and mass speotra and a cot4parison with the
pro erties of thaliglucinone shows that the correct empirical formula is
P
0 H 906N with probable structure
1/2
wtl--- -- ---- - --- ---
" -t LNI-7,11 11 , . I ~ ~ , I, , ~ z ~ j , - ViSIM. -11
-.F:r., j'-., j- -., - ;;.. "666
, ! 1 11! 1314if A 11m -EA ~ivii k,1 io--i ! I TFA M
Al r
USSR UDC 54?.9441/945
SULT-ANKHOD-ZHAYE
1,11. N., YUNUSOV, 11. S. ,and Order of the
labor Red Barmer Institute of the Cherdstry AaWhOP Ooatc~:Lls, Acad. Se.
UzSat
"Karacoline a Novel Diterpene Alkaloid From Aconitwq Karacolictim"
Tashkent, Khimiya PrirodnyWh Soyed:bieniy No 3, 1972, -p'P 399-400
Abstract; A new alkaloid -- Karacoline was isoLi'%ed Crom, tho tubtxs of
Aconitum. Karacolicuri irith a m.p. 183-181V This allrcaloid conttlains arl N-ethyl,
a tertiary C-metbyl, a inethoxyl and three hydroyy]. gro Z. Its triacotate
malts at 165-1690i and the diacetate has a m.p. 119-1-22u. The following for-
muLt is postulated for the new corvound:
OCH
Oil
.011
Oil
2 5
USSR
UDC 547-944
ARIPOVA., S. F., 14AIJKOV, V. M., and Order of 1-1he 1--bor Red
o Aft
Banner Institute of tho Chemistry. f 4ra~__
4cts, lead. TJzSSR
"Convolvulus Alkaloids"
Tashkent, Ydiimiya Pri-rodnykh Soyedineniy, No 3, 1972, pp 401-~402
Abstract: Routine treatment of the roots of Convolvulus orbiacius Idb.
yielded cuscohygrine, and when the plant portion of the,"onvollrulus sub-
hirsutus Rgl, et Schnalh was worked up - only convolvini? was isolated.
USSR UDC 547-9101945
RMMUITULIAYEW, T. U., =d IrI;IHLq0V.- --q- vn- - Order of tl:ze, Labor Red; Banner
Institute of the Chemistry ura r ucis, Acad. Sa. uzSSjR
'Alkaloids of Dipsacus Azureus"
19,12, PL 1~00
Tashkent, Y"li-t-dya Priro-Inykh Soye4ineniyV No 3,
Abstract: St,udyjiiv the alkaloid content.in the seeds oiL" Dipsacus azureus
Schrenk, a compou.-A was isolated from the chloroform extract urith a m. P.
130-1.319. On the basis of physical properties (U'V. IR,~. MIR, and Hass-Spectro-
metry). this corqiour4 was irlelltiticd as. Cwithley-.We.
T~ 7~ -7=7- .-7= 3-
ill r
11~KAMIRII EINHI-0.1.
USSR UDC 547.944/945
UBAYDULLAYEV, K., BEESSOINOVA, 1. A., a ell 0 er of the Labor
rd .&...Yu.. e
-Red Banner Institute of the Gqemir>try of J."atur 1,s Acad. So. UzSSR
al P
"Baplophyllum Pedicellatum, H. Obtusifolium ani H. Bucharlicum Alkaloids.
Structure of Bakharamine"
Tashkent, Khimiy-- Prirodnykh Soyedineniy, No 3, 1972, pp 343-34.6
Abstract. From the overgrourd portion of~ 11. pc-licellatun Bue. haplopina ayi,-'
Z
robustin were i5olated; H. obtusifolitta yielded skisiimiariLn and evoxin. from
the mother liquids of all alkaloids of the overground pGrtion of H. bucharicum.
-imide tirid a new alkaloid --
Lity. it was possible to isolate fa-arin, benz.
0
bukhararain - an -:~, 13 -substituted derivative. of -dihydrofii-ranoquino lone -4,
m.p. 2230. It is optically inactive, dissolves well :Ln.:mothanol, ch-loroforri,
arxl with heatin- in acids. The roots of H. buchariGUM contaj,-n six known
alkaloids: dictamin, skiramianin,
~-fagarin,.robusLin, haplopin, and bu?harain.
USSR UDC 547-91140'25
RLMATUL-1,41171, T. U., and IDAM9.4i, I Order of the Labor Red Banner
ry~o
ra 0
7 ra r0 ucts;, Aad. ~c. U 7,SSR
Institute of the Chmistry `=fa c c
"Gentiana Olivieri Alkaloids"
Tashkent, Khimiya Prirodnykh Soyedineniy, No 3, 1972, PP 350-0153
Abstract: From the other eytracts of Gentiaria Olivieri, the following
alkaloids were isolated in routine m-nainer: gentiotibetine, gontiananine,
gentianine, oliverine, and a base with a m.p. 253-254o.; A condensation
'orm.was isolated fron chloi,oform residue;
product of gentianine with chlorof
its.m.p. was 134-1350C.
~b t:-:1K1 ik~i 11 MZ-i Z; ` 711z a! i " -0. - t1: L~.
-;-..~!
USSR UDC 547.944/945
KHASHIMOV, A. M. , SHAKIROV, R. , and . . . . . .Order of the Red Banner
of.Labor Institute of Chemistry of.Plant. Substa.nces,of the Uzbek SSR Academy
of Sciences
"study of Alkaloids from the Above-Ground Part of Veratrun Lobelianum.
Structure.of Veralosinine"
Tashkent, Khimiya Prirodnykh Soyedineniy, Np 6V 1971, pp 779-784
Abstract: A study was made of the alkaloids of the above-.-ground part of
veratrum lobelianum, and the structure of ve:ralosinine was corrected. When
separating the benzene fraction of the total above-ground part of veratrum
'lobelianum with an acetate buffered solution with pH;5.8-3.6, alkaloids with
a melting polint of 156-158* and 180-J".83* were isolated from the fraction
with pH 5.8-5.6 and veratroyl zygadenin with a melting point of 263-2650
was isolated from the fraction with pH 5.4-5.2. The.infrared spectra for
the diketone from a mixture of tetrahydroveralosidines an4 the diketone
from a mixture of tetrahydrosoladines are presented for coPparison. They
show that the tetrahydoveralosidine and tetrahydrosolasodiae are not identical.
Solasodine and veralosidine were subjected to acetolysis zaad acetylation to
further study the structure of veralosidine. Data are presented showing that
1/2
-Z - 77
212
. ~' -
U:iial I- 0.-I..-l'mmp'R ' ' 1 ; .1 ~:- I
"p4
" _q
6~~&wa It,-,, -Z.i. ~.- ! ~ :-.;. ~ . . . . ...... Itil
USSR UDC 547.944/945
SAMMOV, K., SHAKIROV, R., YUNDSOV S Yu Order of the Red Banner of Labor
Institute of the Chemistry "olant Substances of the Uzbek SSR Academy of
Sciences
"Alkaloids from Veratrum Lobelianum. Structure of Germinalin"
Tashkent, Khimiya Prirodnykh Soyedineniy, No 6, 1971, pp 790-793
Abstract: A study was made of the alkaloids of the above-ground part of Vera-
trum lobelianum grown in Dzhergalan. The bases were extracted from the plant
gathered at the beginning of vegetation by the usual chloroform method. The
procedure is presented for obtaining a base with-the coriposition C391161012N
with a melting point of 156-158' from the benzene-ethanol Pluato of the
fraction with pil 8.0-6.6 identical to the base from the aboverground part of
V. lobelianum gathered in Kar-Kara [A. M.Xhashimov, et al., KhPS, No 6, 779,
19711. Veralosin, veralosinine, veratroylzygadenin andthe new alkaloid
germinalin were also isolated, The new alkaloid was studied by nuclear
magnetic resonance and infrared spectra and by.acetylaapn. Its structure
was established as 36(j_)-2-methylb,utyl, l5a-(d)-2-nethyl-!-bu,tyroxy-, 165
acetylgermin.
USSR UDC 577.944/945
TELEZHENETSKAYA, It. V., MASHIMOV, KH. 14., OV U., Order of the Red
Iwo
Banner.of Labor Institute of the Chemis try., "FP "lant:4-utis tances of the Uzbek SSR
Academy of Sciences
"Pe anol, a New Alkaloid from Peganum Harmala!'
Tashkent, Khimiya Prirodnykh Soyedineniy, No 6,. 1971, pp 849-S50
Abstract: By continuing the separation of. the mixture o1: bases isolated from
Peganum harmala in the flowering stage and tlie,beginning:of fruiting [Kh. N.
'hPS ained with a melting
Khashimov, et al., K 456, 19691, a substance was obt,
point of 178-180 degree optically inactivP.,with the caiiiposition C11 if 12N20
M 188 (mass spectrometry) the neur base peganol. The k-esults of ultraviolet,
infrared and nuclear magnetic resonance spectral studieslare analyzed. The
structure of peganol is
OH
4
10
7
8 9
.......... -..........
USSR UDC 547.944/945
GULYAMOVA, D. H., BESSONOVA, I A., Order of the Red Banner
of -Labor Institute of the Che;istry of Pliint~ Subs tances,bf the Uzbek SSR Academy
of:Sciences
"Alkaloids of Haplophyllum Acutifolium"
Tashkent, Khimiya Prirodnykh Soyedineniy,Mo 6, 1971, pp 850-851
Abstract: A study was made of the above-ground part of llaploph7llum acutifolium
(Rutaceae family) gathered during the fruiting.period in the vicinity of Kora-
Kola near Palvan--Zau in the Turkmen SSR. Infrared, ultraviolet and nuclear
magnetic resonance spectral data are presented.for.the.alkaloids extracted from
this plant. From these data and elecLron1bombardment:d1ta the following struc-
ture is proposed for the new alkaloid 24hep tenyl-~-4-quirio lone:
2GH 4C11 (111
CH 611 5C11
2 3. 3
The- new base has_mp 122-123'-.
I T2___
L
USSR UDC 547.944/945
ZUNNMIZHANOV, A., ISKA10AROV, S. . . . . . . .U.-, Order of the Red Banner of
-plant Subs
Labor Institute of the Chemistry of Fances of the Uzbek SSR Academy
of Sciences
"Darvasamin, a New Alkaloid from Leontice Darvasica"
Tashkent, Khimiya Prirodnykh Soyedineniy, No 6, 1971, pp 851-852
Abstract: The separation of the mixture of alkaloids from the above-ground
part of Leontice darvasica was continued after-separation of taspin, N-methyl-
cytisine and darvasin (S. Iskandarov, et al., KhPS, 132,~1969]. Infrared and
nuclear magnetic resonance spectral data are presented for the new alkaloid
which was isolated -- darvasam4n wi-h.a melting point of 102*:the composition
C U N 0 [rA) + 72". Darvasamin is the first natural isomer of cis-series
15 24 2 D 0.
matrine:
USSR UDC 547.944/945
ZIYAYEV, R., ABDUSIOIATOV, A., Ylu Order of the Red Banner of Labor
Institute of the Chemistry of Plant., Substances Of the Uzbek SSR Academy of
Sciences
"Alkaloids of Verbascum Songoric=11.
Tashkent, Khimiya Prirodnykh Soyedineniy, No 1971, Vp 853-854
Abstract: A study was made of Verbascun songoricuTa Shreak. (Scrophulariaceae
family) gathered at Chimgan of Tashkent Oblast-during various.periods of vege-
tation and eachorgan separately.- The total alkaloids i,n percent by weight of
the dry.plant are presented for each of the,organa. Ultraviolet, infrared and
mass spectrographic data show that anabasin, plantagonin, acetamide and a base
with a melting point of 195-196' weredsolated. This is the first time anabasin
was isolated from Scrophulariaceae.
Z7
USSR UDC 547.944/945
SHAKIROV, R., -YUNUSOM-5, _Y1j_.. Order of the Red Banner of Labor Institute of
_~f -PlanC Su stan es of the Uzbek,SSR Acade~ of Sciences
the'Chemistry C
MY
"Alkaloids of Veratrum Lobelianum!'
Tashkent, Khimiya Prirodnykh Soyedineniy, No 6 1971, p '852-853
p
Abstract: The study of alkaloids from the above-ground part of Veratrum. lobe-
lianum was continued. The experimental procedure and results of infrared and
.ultraviolet spectral analysis and other test reactions are presented. The
known alkaloids germerin, veratroyl-zygadenin, jervine, and pseudojervine and
the- new a1kaloids veralosinin and three bases II (composition:C H 0 N with
32 51 9
a melting point of 157-159% [a) + 8.2*), V (melting point 220-221% [a] -
D D
173.17*) and VII (with a melting point*of' 275-277% fal 54.11") were iso-
D
lat6d.
9MMMralftz"T R'M.149 fflffli M0,403, "I"i
i& ANHI H "IMPIR 11,1111s91 Ntr"allyll
M M
USSR UDO 54~.944/945
ZHMOM, B. KH., TELEZIHENETSKAYAS M. N., andXaWM526jwqQj Red Banner
..of Iabor Institute of Plant Chemistry Uzbek Academy:offt.iences
us
"A Study of the Alkaloids of Malacocarpus Crithmofoli
Tashkent, Khbdya Pr1rodnykh Soyedineniyj No 49 19711 pp 538-539
Abstracti Malacarpus, crithmofolius (Retz.) of the family,Zygophylaceae,
has so fax not been studied chemically.
'The authors collected specimens in the budding stage from the U5tyurt
Plateau I, Karakalpakskaya ASSR, in MY; 1970. This raw matex-lal vas first
aointened ui-th soda solution or ammonia, then extracted with chloroform,
A total of 0.064% alkaloids was found in the leaveso andtO.88% In the stems
(percent of dry wiehgt). The composition of the,alkaloid C H and its
10 102,
mass and magnetic-resonance spectra, suggested,that the base extracted from
Malacocarpus crithmofolius was the.same.pubstance as thisalkaloid. The
infrared spectra of the two confirmed this view.
It is concluded that the extracted base is simply ~he dextrorotatory
form of anabasine, extracted for the first time from.yegetable material.
USSR UDC 547-944/945
-jjDMMASH=, E. G., ISMMAROV, S., M=HIRI,, K. S., and
Institute of Pharmacolofy ineni 1. G.. Kutate"ad,el,. Geoxglan my of
Sciences, and Red Banner of labor Institute of Plant Chemistryp:Georgian
Acadenv of Sciences
"Alkaloids of Leontuce Smirnovii"
Tashkentg X-himlya Prirodnykh Soyedinenlyg No 4t.'1971t PP 539-54o
Abstracts Leontuca Smirnovii (Berberidaceas family), widely distributed in
the Georgian SSHp Is a very rich source.of alkaloids* chloroform extraction
of the* root mass yielding I#,;'. Paper and thin-l%yor chrotutography have re-
vealea the presence of eight different alkaioids:in thls:pilant.
The authors were able to separate chemically three of these alkaloids
from the oots of L. S., belonging to the diphanyl, pavine and quinol-tzidine
groups. Treating a chloroforn extriLot with,5% sulfuric acild produced grayish
sulfate crystals, which charred above 3600CI.direct compavison of the elting
base.with those of taspine,
-points af,aLxed eamples and infrared spectrapf-the
established the identity of the two,
USSR UDC 547.944/945
NINOVA, P., ABDUSAMATOV, A., and V Higher-Madical Institute,
Soflat and Red Banner of labor IMMe lofffit, Physiology, Uzbek Academy
'Of Sciences
"Alkaloids of-Verbascum Nobile"
Tashkent, Xbimly-& Prirodnykh Soyedineniy, No 4j, 1971, P 540
Abstracto Verbascum nobile Vel., of the Scrophularlaxeae family, is endemic
along the Strum River In southwestern Bulgarial it has a fairly high alkaloid
content.
- A chloroform extract, following processing, yielded 0.511. etber~soluble,
and 0.6% chloroform-soluble allcaloids.(percent,of dry plant weight). the
other portion of the mixture was divided into 10 fractions on the basis of
basicity. Tbree ind-tvidual bases, the third with malting .1 point of 1000 or
uere separated. The H42N 0 )j with melting point 74-750C, was named
first (C25 4 4
"rbasine; the second (C.7H44Y404)p vith selting'point 125-126 C, was named
Verbascine.
USSR UDC 547.944/945
,:nd Red Banner of Labor
KHODZHAYEV, B. U., SHMRVi, H. t Now
obak bademy.:
institute of Plant Chemistry, U_ X of,Scie.nces
"AUmloids of Bux:us Sempervirens"
-543
Taahkent, Khimiya Prlrodnykh Soyedineniyq No 4s 19711 PP 542
Abstracts Buxus sempervirens L. (box tree), now cultivated in the USSR, con-
te4ned alkaloids uhiCh have so far gone completely unstuciled.
Using the chloroform method,,- the authors determined the alkaloid con-
tant to various organs of this treel =ples,belng taken from three cultiva-
tion sites.,
Four substances were distinguished on.the basis ofl~cheml,cAl reactions,
nuclear wgnetic resonance, and was-s.spectrom6.tric~and:infl-ared data.
Precise identification has not been made#
IA
----------
USSR MC 347.944/945
ABDUSAMATOV, A., RASHIDOV M. Us# old RedBanner of Labor
Institute of Plant Chemistry, Uzbek Academy of Sciences
NThe Structure of Pediculidine"
Tashkent# Xhimiya Prirodnykb Soyedineniy, Fo 3t 19?1# pp 304-306
Abstracte The alkaloids of a 1966 sample of Pedicularis olgae, obtained at
Bagyxdasht, Tadzhik SSR9 were extracted with chlorofo-na (they made up 0.59%
of the dry dample). The picrate of this base was,then extvacte&from the other
portion and studied chromatocraphically. (0~.aluminun oxide). A base of com-
position C H NO with melting point of 74-?50C.waa extracted~; this alkaloid
10,9
'was named pediculidine.
Infraredg, ultraviolet and nuclear magnetic resonance and nass spectra
were used, to-determine the structure of the. 4'ev alkaloido
HIM am, Mff
ma 944/945
ABDUSAMTGYg A., and UMS Red Banner of Labor Institute of Plant
Chemistry# Uzbek Am,
"Pedic"linin A New Alkaloid from Pedicularis Olgae"
Tashkent, Xhimiya Prirodnykh "Boyedineniy, No 30 1971t pp:306-309
To# -040c),
Abstracts A new alkaloid, pediculinin (C HI h melting point 133
10 3
wa obtained from the chloroform portion of an extract of Pedioularis olgae.
A tentative structural formula is proposed.
USSR UDC 547**944/947
EMSHIMY, HH. N., TELMMEEMSKAYA, H. V. SHAWM7, N. ff. , and
'led Banner -of Labor Institute of Plant- Chemistry, UzWk PCOMY Of
Sciences
WDynamics of the Accumulation of Alkaloids in Peganua jlar~lf
Tashkentp XhWya Prirodnykh Soyeddneniyt No 39 1971t p 382
Abstracts This is a continuation of S. YU. YAMOV's eaxller 'fork (1970) on
the little-known process of a3kalo3A accumulation in Veganam harmala, a tall,
perenniall deep-rooted grass. Samples were collected In Bakharskaya, and
Samarkandskaya oblasts. Above-ground portions of the plant- were tested o for
alkaloid content. in the vegetation, buddingt flowering, fz~At-bearing and ter-
ainal periods. There was a steady diminutionj,~In that order, for above-ground
portions# and also for roots#, except that ini the`latter th6ze w" a slight
during the termliu1 period.~~ 50eds collected fol~oAng Ithe terminal
upswing
period shoged a high alkaloid content (5.0,19, as apJnst a raximum 2.17%. -."Or thv
leaves and stalks), 84% of their alkaloids mass eonsisting:of a mixture of har-
mine and harmaline. Pods yielded 1,08% of their dry weight in an alkaloid nass
from which har -nine and vasicinone were. extracted.. All yields. were found to vary
In, connection with the age of the individual plant and groiang site.
Alkaloids
USSR uDa 547.944/945
SPAYRUMMOV, R. A., ISWMOOV, So V and VRed.Banner of labor
tute of Plant Chemistry, Uzbek Academyio nces
Inati
-tisine"
"New N-Substituted Derivatives of Cy
-)84
Tashkents Milmiya Pr1rodnykh SoyedIneniy, No 3v 1971, PP 18)
Abst=tj Thanks to its wide distribution and strong physiological activity,
cytisine is a favorable basis fur producing various K-substituted derivatives
which may be of value in deterniningthe connection between structure and
physiblogical activity. I .
Continuing the work of earlier relsearchers begun on this basis, the
authors obtained derivatives of cytisine and N-( -oxy, K-Mminapropyi)
cytisinap with dialklyl estero- of phosphorous acid (2 moles of cytisine were
dissolved in a chloroform-CC11p mixturej to which was added I Mole of the dIalkyl
luster of phosphorous acid). From the-resulting,precipitate./~cy~isine chlo2,'O-
hy&~Ite) by various additions (methanoli ami~onia# azd dialkyl esters of phos.
acid) were then produced seven U-substituted,derivatives -t.~C
15H 11IF01'.1
23 -
GI?H21~i'049 C 19H3?2PO4 (two compounds,- the dibutylphosphate and the diizobutyl-
phosphate), C14112ill 029 C20H 11 PO and. N PO
1/2 34 3 5 022'~B 3 5'
- N-TWITETI-01
- I,.
M, ~C- - - ; , 1~ .; i ,, . , .1 l-, .. I j.., ..,. I.. , . . i - . - I
''L - 1. .'.. -. famillflown MIMIN FAMR&I arm-w-magam
~, . . _i WaNwommum
USSR uDa 547. 945
and
TEL-NOV, V. A., YUNUSOV, M. S., Red Banter of labor
S 6;
Institute of Plant Chemistryp Uzbek ts ience
"Alkaloids of Aconitum Tranzschelland A.'Anthroideue
Tashkentp Khftiya Prorodnykh Soyedineniy,,ft 39 1971t p 383
Abstracts Alkaloid content of these two unstudied plant- speeles was determined
from samples collected in the Pamir_Altay:(roots of Aconitum Tranzscheli)
and~on the Dzhungarskly Ala-Tau Range (early~vegetation 'of A. ~ a.), the former
yieldLig 0.9% alkaloids of the-dry sample* 0435S
Three individual alkaloids were separated from a 4.95-gTam allcalold
mass derived from A. a. t condelphine, (5.1% of'; the: zne)j a ba5e C H NJ
3507
31
named ant~orodixej and a base' 02 (i.4 f the 'mass
% 0
USSR UDC 547.944/945
SIMMMANOV, R. A., ISKANDAROV, S., and YUNUS0V,, S. Yu., Order of the
Red Banner Institute of Natural Product`_,"~~, Aea1d,,-Sc4.,, USSR
Study of the Alkaloids Thermopsis Alter~iflora"
Tashkent, Khimiya Prirodnykh Soyedineniy, No 1971, pp 169-174
Abstract: Me above-ground portion of Thermopsis alteriiiflora collected
omthe.16 April 1968, when it just began 'to bloom, was studied. Chlorofom
extraction gave a 3.35% total content of alkaloids: consisting of citizine,
N-methylcitizine, pachycarpine, termapsirt-, and a new alkaloid alteramine.
on the basis-of physical properties and IR spectra alton~amine is believed
to be 11-allyl-N-methyleitizine.
Alkaloi&
USSR UDC 547.94+543,42
ISKANDAROV, S. , U14ALITDINOV, D. Dzh. , YAGUDAYEV, .1-1. Ran
Order of the Red Banner institute of Natural Products Cherest'ry, Acad. Sc.
~'UzSSR
-Derivatives and Stercochemistry of Matrin Alkaloids"
Tashkent, Khimiya Prirodnykh Soyedineniy, No 2, 1971, pp. 174-179
Abstract: a-Substituted derivatives of isomeric matrins were synthesized
and studied by IR, NIM, mass spectroscopy band ORD. Soforidin dissolved in
a mixture of SOC12 and S02C12 was refluxed for 1 by. The sollrent was re-
movedi the residue treated with a 5/Z ammonia solution, and extracted with
ether and chloroform. Chromatography over silica gel gave dichlorosoforidin,
m.p. '128-130% [a]D - +19'. Analogously the dichloroleon'tin, m.p. 158-159"
and dichloromatrin were obtained. To prepare dich-loroisosoforidin, m.p.
152*, lab = -114.8* the above reaction bad to-be extended to 3 'hrs. Shak-
ing the dichloroalkaloids dissolved in alcohol with Pt02:produced uionochloro
derivatives: manoch-lorosoforidins: - A- an oil, [a]D = +17' and B- a solid,
m.p. 140-141', 1a3D = +30*; mono ch loroleon tin, M.P. 139-3-4'0" lrt]D = -17',
m-monochloromatrin, m.p. 106-107% [a]l) - +29* and monorlitorott3otioforidin
chlorohydrate, ta.p. 273-275% Monochloroisosoforidin itself iii an oil
1/2
W MINI,
USSR
ISKANDAROV, S., et al., Khimiya Prirodnykh Soyedineniy, No.2, 1971, pp 174-
179
1a1D -75% which could be converted to dehydroisosoforidin by a reaction
with sodium iodide and lithium carbonate in dimethylfoi-mamide; the product
had a m.p. 97-98', (al
D +500.1
2/2
USSR UDC 547.944/1
'OV, D. A., SHARIPOV, M. R., ARIPOV, Kh. N., 'HALIKOV, V. M., SUAKIROV,
RAKNIM
T. T.,. and YUNIUSOV S,. "Order of the Red Banner of~~LzCbor" Institute of
the Chemist*M__,_~ rials, Aesdemy. of Sciences,Azbek SSR
"Polybuffer Separation of Vinca Erecta-Alkaloids"
Tashkent, Yhimiya Prirodnyk1i Soyedineniy, No 6, 1970, pp 713-717
Abstract: The complex alkaloid mixturg f rom vinca crecta was separated by
alkalinity on a special polybuffer separating unit. The mixture of alkaloids
in an organic solvent was passed in sequence through a number of phosphate
buffer solutions t-,,ith E nrpia: p1l values arringed.in order C) roas; g
f inc , in p
The use of this method results, in distributiotv of the alkaloids into fracticas
containlmg 3-6 ba-seo apiece. Tac followia'9 baaeE; were irolated in addition to
previously identified alkaloids: ervinzidine, apovincamIne, (+)-quebrachmine,
dl-(_-1)umar-ine, (-)-1,2-dehydroa~-pidospei-riidine and copisauone. This is the
first tire that these bases have been derived from this 1)0.ant. Ten or tivelve
other inaidenti fled alkaloids were also detected. by thin-layer chromatography.
The region of passage of some alkaloids into the buffer solutions is estab-
Ushed.
UDC 547.944/1
IL'YASOVA, Kh. T. , IMALIKOV, V. M., and YUNUSOV, S. Yu., "Order of the Red
Banner of,Labor" Institute of the Che Materials, Academy
t rv
st17
of Sciences of the Uzbek SSR
"11-Hydroxypleiocarpamine a New Alkaloid.from Vinca~Erecta"
~'Tashkent, Khimiya Prirodnykh Soyedineniy* No 6, 1970, pp 717-719
Abstract: A study of the aerial part of.Vinca erecta Rgl. et Schmalh. col-
lected 1-15 June 1965 near Sagyrdasht in the.Tadzhik SSR during the fruit-
bearing phase.showed that the alkaloid sum in this plar~t is 0.53%. The sum
was separated into plianol and non-phenol.partsi. Vincxtifne, vincanine, viner-
vinine, arvaraine and aquamicin were isolated from the~-nonphenol fraction.
The phenol sum yielded vincanidine, aquammina and a base_, (1) with a melting
point of 228-229*C. This base dissolves.readily In alcohol, chloroform,
methanol, acetone and alkalis, and dissolves poorly in ether and benzene.
Spectral and chemical analysis revealed that this alkaloid is a hydroxyl
derivative of pleiocarpa--ine fIrst isolated from the plant Pleiocarpa mutica
Benth. By analogy with other alkaloids of similar structure, position 11 is
assumed most likely for the hydroxyl group, and the structure- of 11-hydroxy-
pleiocarpamine (1) is proposed.
........... ..................
USSR LTDC 547.944:945
KHASHIMOV, Kh. N., TELEZHENETSKAYA, M. V., RASHKES, Ya. V., aad YVNUSOV, S. Yu.,
"Red Banner of Labor Order" Institute of Plant. Chemistryi, Uzbelftit~ W-61--
Sciences
"Pegamine, aNew Alkaloid from Peganum Harmalal'
Tashkent, Khimiya Priradnykh Soyedineniy, No 4, 1970, pp 453-455
Abstract: The total alkaloid content of Pegani= harmala was found to be 2.17
percent and consisted of peganine, vasicinone, harmine,:desoxypeganine, de-
soxyvasicinone, and a new alkaloid melting at 160-161% which the authors
named pegamine. The structure of the compoundwas ascertained from spectral
data,:including UV, IR, and mass sp-.5~--tra.:.A scheme f or,: the mass spectral
fragmentation of the compound was proposed,'
USSR UDC 547.944/945
BESSONOVA, I. A., FAYZUTDINOVA, Z. Sh., S. Yu.,. "Order of the
Red Banner of Labor" Institute of. the Chemistry of 'Merials
"Investigation of Alkaloids of Kirgiz Opium!'-
Tashkent, Khimiya Prirodnykh Soyedineniy, No 6, 1970, pp 711-713
Abstract: The authors studied raw opium and the mother~liquor after separation
of morphine and narcotine. The rw4 opium war, extracted by water and then by
acid. The following alkaloids were chromatographically isolated from the
alkaloid sum (21.8%): morphine, codeine, thebaine, papaverine, narcotine,
cryptopine, protopine, and also a base with a melting.point of 267-268%, and
another with a meltin& point of 263*C. The latter two i.esemble alkaloids of
the morphine type with respect to UV and mass-spectrometric data. Another
non-phenol base with a melting point of 138-139*C was isolated by chromat-
ography on silica gel from alcohol-ammonia mother liquors remaining after
extraction of morphine and narcotine. This base was identifi-ed as levo-
canadine. This is the first time that this alkaloid has been isolated from
opium.
Abstract: From C. pesudoddunca.taken during the fruitb-earing and budding
stages, and C. gortschakovii in the blossoming stage,:11 alkaloids were
isolated by conventional methods. The alkaloids from C. pseadoadunca in the
fruitbearing stage included d-bicucullinei d-!-$-hyJrast4ne, coramine, prota-
pine, 1-adlumidine (determined by IR), slid I-9coulerino These same
alkaloids were found in the extract of C. pseudoadunca in the budding Otage,
although in different concentrations. From C. gortschAavii, the alkaloids
isolated were isocorydine, 1-adlumine, d-bicuculftne, ;rotolne, sendaverine
P P
(IR), and-a base melting at 240-242*. UV and-IR data,:melting points and
ts were also included in the reporto
gram amoun
9