SCIENTIFIC ABSTRACT SITNIKOVA, M.V. - SISAKYAN, N.M.

Ik JACCESK011 NR: AT5012856 UR/2648/65/000A02/0051/0059' 'AUTHOR: Sitnikova, M. V. iTITLE: At urbidity in Central Asia iSOURCE: Tashkent. Sredneaziatskiy nauchno-issledovatellskiy gidrometeorologicheskiy linstitut. Trudy, no. 22 (371), j,965. Voprosy biometeorologii i aktinometrii (ProbleWs lin biometeorology and actinometry), 51-59 ITOPIC TAGS: atmospheric turbidity, solar radiation attenuation~ optical density, atmospheric transparency, atmospheric humidity, atmospherld aerosol !ABSTRACT: Me purpose of this work was to estimate the atmospheric transparency in! i !Centr.41 Asia from data obtainedover a 6-year period at 0930, 1230, and 1530 at th4. pstations at Takhia-Tash,Termez, ehuruk, Beki-Bent, and Gasan-Kuli. I~elattionships !have been obtained (in the form of curves) between the primary solar radiation, !absolute humidity, and visibility from observations on days with cloud covers of ~4 2- units. Measurements are reduced to h 600 and to the mean sun-earth distatIC4*77 'Correlation coefficients for the Beki-Benf-, Gasan-Kuli, and Takhia-Tash stations' iwere o.94, 0.95, and 0.90 respectively. The article also contains the annual va-r- liation in the turbidity coefficient N (as-defined b L. G. Makhotkin,- TrUdY'GQ0, -Y Card , 1/~  L 47745-65 ACCESSION NR: AT5012856 no. 80, 1959) (tabulated), the annual variation of parameter a introduced by Ye. A/ Lopuk-hin (Izv. AN UzbSSR, no. 6, 1963) (tabulated) for estimating ~he attenuation of the direct solar radiation by water vapor and aerosols, a chart showing the geographic distribution of the turbidity index (month of July) (see.Fig. 1 of the Enclosure), graphs of the optical density for three high-altitude stations, a graph of transparency versus turbidity, and the annual variation of the coefficient de- scribing the variation in optical density with altitude (tabulated). Orig. art. has: 2 formulas, 4 figures, and 5 tables. [081 ASSOCIATION: Sredneaziatskiy nauchno-issledovatel'sk--y gidrometeorologicheskiy insr.itut , Tashkent (Central-Asian Scientif i-c Research Ibstitute of Vdrom~ete:)rology) SUBMITTED: 00 ENCL: 01 SUB CODE: ES NO REF SOV: 005 OTHER: 000 ATD PRESS: 4005, r Card 2/3  I- SITNIKOVA9_- N._Pl.-._ Specificity of the precipitation test with haptens for the detection of Eberthella typhi in water. Gig. i san. 25 no.4:63-.66 Ap 160. (MIRL 13:8) 1. Iz Instituts, epidemiologii i mikrobiologii imeni N.F. Gamalei AMN SSSR. (WATER-RACTERIOLOGY) (EBERTHELLA TYPHOSA)  BUIATOVA, T.I., kand.med.nauk; SITNIKOVA, N.N., nauchnyy isctrudnik; SERGEMA., T.I., nauchnyy sotrudnik - - Prevention and treatment of botulism. Mad. sestra 20 no.6:23-26 Je 161. (MIRA 14:7) 1. Iz Institut epidemiologii i mikrobiolqgii imeni N.F.Gamalei A1,21 SSSR, Moskva. (BOTULISM)  IVANOVA, L.G.; SEt61.,YEVA, T.I.; PLOSKIRz;V, N.V.; ~I-mIKOVA, Dry raedium for t-he diagnosis of food po-isonir:Z caused by Clostridium botulinum and Glostridiv~r: pcrfrlnU(!no. La"-,. 8 no.4:33-36 Ap 162. (WILP, 15: 5) 1. Institut epidemiologii i mikrobiologii imeni N.F.Garaalei X-2' SSSR (dir. O.V.Baroyan). - (FOOD POISONING) (CLOST,--JDILql) (J3ACTElUOLOGY--CUUUMS AITT CULTME" NEDIA)  D;) C)/" ./C- ij o _'3/C SOURC", c0i L j_' UVGOOO/66/030/C 00/02 2 G. i.; iil',olovskova, Yu. S.; Sitnikova. N.; Chizhov, S. V.; 40r, 34 0.- drinlking water pre~;ervati on with Iver [Paper presenred L U oz-, I;.-obIcT-a; o" Snace Xcdicinc held in i-loscow om 24 to 27 Xay 19661 ;~Gnf'~rcntziiya p0 probleirm-w, kosraiclhaskoy maditsiny, 1965. Problemy -J -oy -i-.ed4LtsIny.Problems of space irs?dicine); maLerialy kon"crentrii, 2-- I.-fe support systenii, water purification, silver ion, space nutrition A A '.--rater-;Drcscrya~ion imethod suitab-.e for C',,C f14 na 0 -gi-ft _,must keep the taste qualitics 01, drin"Cin('r wate IVh ile pmventing developnicilt of micro- ilora even alter secondary contamination. Most physical met:lods of disinfecting ivater can only be used immediately before drinking, since they have an insufficient aftereffect. Biological purification methods are L not presently used because of tile unfavorable effects of antibioticsIon the :iu.-nan orfranisril. The most effective and least toxic of the chemical preservatives are silver preparations. Z,xperinlentlal data are presented from a 1961-1965 study of the Card 1/2  L 10,r,69-67 ACC NR: AT6036586 pro.nerties of -ionic silver as a drinking-water preservative. It was estaiji.ishled tliat tne minimum silver dose which ensures a stable bactericidal. effect -lor six months is a dose of 0. 1 mg/liter. Doses of silver ions ten Or I-Alore times larger than the minimum bactericidal dose did riot have a toxic ciffect on e%perimental anirnals. Human comsumption of water preserved with silver ions in a dose of 0. 1 ing/liter for 15 days did not resull. in any pathological shifts in the functional condition of those organs and systerns most susceptible to the effect of silver. Experimental material demonstrates the effective preserving qualities of silver ions and the absence of a toxic effect of the preservative. on h;xman and anL-ral organisms. [W.i~. No. 22; ATD Report 66-1161 SUB CODE: 06 SUBM, DATE: 00May66 Ca.-d 2  Srm.-L.-IIDTI, 0. A. "Reasons for the Ra-Did Loss of Germination in Seeds of the Poplar and Willow." Dok. An., 70, Yo. h, 1950. 1-16., .1,!oscow State FedagoLrical Inst.. -c11950-,  SITNTROVA, 0. A. Cand. Bi.ologicalSei. "Fbologophysiological Study of the Conditions of Rest in Plants.ff Sub 127 Apr -11, Xoscow Oblast PedagogicFkl Inat. Dissertntions T)rnsented for, scienc6 and engineering degrees in L-- Moi3row durinp, 1951, SO: Sum. "To. b8c, 9 May 55  GENKELI, P.A., professor. doktor biologicheskikh nauk; SK'NIKOVA. O.A., kandidat biologicheskikh nauk. - ',.. Experiments in the study of winter dormancy In plants. Mut.v shkole no.6:24- 32 '53. (MLRA 6:10) (Botany--Phyaiology) (Plants--Frost resistance)  a1WELI. P.A.; SITNIKOVA, O.A. State of dormancy and frost resistance of plants, Trudy Inst. fiziol. rast. 8 no.1:276-288 '53. NiEA 6:12) 1. Institut fiziologii rasteniy im. K.A.Timiryazeva Akademii nauir SSSR, Moskovskiy oblastnoy pedagogiche3kiy inBtitut. (Plants--Frost resistance) (Botany--Physiology)  GINMI, P.A.; SARTCHEVA, A.P.; SITNIKOTA, O.A. Xffect of variable temperature seed treatment an corn development and ripening. Fixial.rawt-2 so.5t447-453 S-0 155. (MMA 9:2) 1.XafedraL botaulki Mookovskego oblastsogo pedagogichaskogo inotl- tuta. (Corn (maize)) (Plants, Iffoct of temperature on)  SITNIKOVA O.A. Effect of gibterellic acid on some properties of the protoplasm. Fiziol. rast. 9 no.l:IC9-II'L '62. ( ',JRA 15: 3 ) 1. N.R.Krupskaya Moscow Region Pedagogical Institute. (Protoplasm) (Plants, Effect of gibberellic acid on)  S/078/60/005/010/013/021 B004/Bo67 AUTHORS: Savitskaya, Ya. S., Gurevich, M. A., Kalabukhova, S.,_.,V -ii -S.itnikova, S. I~~ TITLE., The Problem of the Formation of Solid Solutions in the syste Y 0 Sc 0 by Means of Thermal Decomposition of the 1, -~~3 - L:4w--3 11 Isomorphously Coprecipitated Yttrium - Scandium Oxalate PERIODICAL: Zhurnal neorganicheskoy khimii, 1960~ Vol. 5, No. 10, pp. 2300-2306 TEXT: In the introdurtion~ th- :~!ithcrs point out that the formation of solid solutions of oxides and rare oarths by sintering directly mixtures of oxides has certain disadvantngp-- (high temperatures, long duration of reaction). Henceq they studied ',ne possibility of obtaining ouch solutionsL/ from coprecipitated oxalates: ) nH 0 t (Y'SC)qO CO , CO nH 0. Y 0 and Sc 0 (Y'Sc)2(C204 Y 2 2 2 2 3 2 3 Card 1/5  The Problem of the Formation of Solid S/078/60,/005/010/013/021 Solutions in the System Y203 - Sc203 by Means B004/BO6'T of Thermal Decomposition of the Isomorphously Coprecipitated Yttrium - Scandium Oxalate were used as initial substances. By heating them to 10OOcC, their impurities were removed (for analytical data see Table 1'. They were dissolved in hydrochloric acid "pure pro analysill, evaporated, and 0.1 M solutions were obtained. Mixtures of these chlorides at a molar ratio (related to oxide) Of Y203 : S0203 from 1 : 1.64 to 4 : 1.64 were heated to 950C and precipitated by means of chemically pure oxalic acid of the same temperature.(Table 2). The thermal decomposition curves of pure yttrium and scandium oxalates, as well as of the coprecipitated oxalate were taken (Pig. 1, Table 3). In contrast to the temperatures at which the mechanical mixtures of the pure oxalates start decomposing, the decomposition temperature of the coprecipitated oxalate was between the temperatures for pure oxalates. The pure oxalates and t:ae coprecipitated oxaLate were heated to 9000C. and their X-ray pictures were taken. The values for Y203 are given -t.n Table 4. As may be seen from Table 5 and Fig. 2. a continuous series of solid solutions of the oxides is formed, with the lattice constant changing steadily from a = !C.6! U (pure Y203) Card 2/3  SITNIKOVA, T.A.; KEYLIX, G.B. Properties of Khl3*49 stainless steel in drawing. Ked.prom. no-3: 35-36 JI-3 155. (MIRA 9:12) 1. Nediko-instrumentallayy ordena Lenina zavod "Desnogyardeyets.0 (APPARATUS AND-INSTRUMENTS, stainless steel)  SOV/ 13 7- 58 -9 - 1999 6 Translation from: Referativnyy zhurnal, Metallurgiya, 10,58, Nr 9, P 272(USSR) AUTHORS: ..Sitnikova, T.A., Keylin, G.S., Lozovskiy, V.L. TITLE: Effect of Heat Treatment on the Properties of ZKh13 Stainless Steel (Vliyaniye termicheskoy obrabotki na svoystva nerzhave- yushchey stali ZKhl3) PERIODICAL: Materialy po obmenu opytom i nauchn. dostizh. v med. prom-sti, 1957, Nr 6 (25), pp 110-IIZ ABSTRACT: Ref. RZhMet, 1958, Nr 6, abstract 134-S3 1. Stainless steel--F-ToperUeo 2. 3. Ifea--Metall-urgical effec-(-.s Card 1/1  SITNIKOVA, T.A.; UYIIII, G.S.; IA)ZOVSKIY, V.L. ...... . ......... ......... I- - Sffect of heat treatmen t on the properties of 2KI,13 stainless steel- Med.prom. 11 no.9:25-29 S '57. (MIRA 10:12) 1. Mediko-instrumentallnyy ordena Jenina zavod "Krasnogvardeyets" (STREL, STA IlaaSS--HFAAT TREATMENT)  SITS IKOVA, T. A. : KNYLIN, G. S. Increasing the strength of matrixes for automptic cold-upsetting machinery and draw dies. Med.Drom.12 no.1:47-48 Mr '58. (MIRA 11:4) 1. Modiko-instrumentallnyy ordenA Lenins z9vod "Krasnogyprdeyets". (DIES (MET.AINORKING)  SITNIKOVA, T.A.; KMIN, G.S.; LOZOVSKIY, Y."Le WUUfacture of tools by the weld seam method usine 1-2 electrodes. Nad.prom. 14 no.2:31-33 7 160. - - (NIHA 13:5) 1. )bdiko-instrumentalluyy savod 91ramnogvardaystop. (TOOLS)  SITNIKOVA, T.A.; XKYLIN, G.S. Some results of the work of the Industrial and technical council of the Olrrasnogvardeetn" Pactory. Ned.prom. 14 no.4:44-.46 Ap 16o. (MIRA 13:6) (INDUMIAL PAN&GMMT)  SITNIKOVAI.T.A.;-LOZCVSKII, V.L. Manufacture of instruments from EL-603 steel. Med. prom. 14 no,9: 54 S 160. (MM .13:9) 1. Mediko-instrumentallnyy zavod "Krasnogvardeyeta" (MEDICAL INSTRUMENTS AND APPARATUS;  SMIKOVA) T.A.; MYLINI G.S. Production of ocular trephines from YJU8 stainless steel. M led. prom. 16 no.2:50-52 F 162. I (MIWL 15:3) 1. MtAiko- instrurifiqtal'rkw zavod "Krasnogvardeyets" (SURGIGAL =79M-TOTS-MAPPARATUS) (33TEEL, STAUILZ~S)  SITNIKOVA, T.A..; KZYLIN, G.S.; LOZOVSKIY, V.L. 4. jn Raising tho quality of springs for medical instr ents. Med. prom. 'iA 15: 5) 16 no.3:48-50 Mr 162. (ML 1. Mlediko-instrumentallnry zavod "Kr-asnogvardeyeetus" (MEDICAL INSTMMTS A.?,TD APPARATUS)  KEYLIN, Grigoriy Samuilovich; LOZOVSKIY, Vladimir Livovich; SITNIKOVA, san AjeL drovna; MIKHAYLOV-MIKHEYEV, P.B., TELYASMV,- F.M.9 _Z'vU.1zU-va; GVIRTS, V.L., tekhn. red. [Effect of heat treatment of the properties of chromium stain- less steels; from practices at the "Krasnogvardeets" Plant] Vliianie termicheskoi obrabotki na. svoistva khromistykh nersha- veiushchikh stalei; opyt zavoda "Krasnogvardeets.0 Leningrad, 1963. 17 p. (Leningradskii dom nauchno-tekhnicheakoi proW gandy. Seriia: Metallovedenie i termicheskaia obrabotka, no.1) (MIRA 16:8) (Steel, Stainless-Heat treatment)  14(10) SOV/112-59-3-4663 Translation from: Referativmyy zhurnal. Elektrotekimika, 1959, Nr 3. p 53 (USSR) AUTHOR: Sitnikcva, T. F. TITLE: Foreign Metho-ds of Large -Cross -Section Tunneling Work (Zarubezhm-~-,e metody ao3ruzheniya t,_,nme'ey bol'shogo secheniya) PERIODICAL: V 8b.: Energ. str-vo. Vol is -M.-L., 1958, pp 54-58 ABSTRACT: Bibliographuc entry. Card .111  KOMISSAROV, S.M., Inzh.; SITITIKOVA. T.F., inzh. New design of electric high frequency drives. Izobr. i rate. 3 no.5:18-20 My '58. (MIRA 11:9) (Blectric driving)  s/136/61/000/001/008/010 E193/E283 AUTHORS4 Glukhov, V.P., Sitnikova, T.G~ and Fedotov, I.A. TITLED Recovery of Selenium from Slimes by the LGI Method on Pilot Scale Plant PERIODICAL,, Tsvetnyye metally, 1961, No~l, PPz83-84 TEXT.~ A method, based on oxidizing roasting of granulated slimes followed by absorption of selenium anhydride by a separate layer of hot sodium carbonate, has been developed at the Leningrad- skiy Gornly Institut (Leningrad Mining Institute), The selenium- bearing compounds, obtained in this manner, can be processed either by precipitation of selenium from acidic solutions, or by reduction and precipitation of selenium from selenide solutions. The main advantage of this process over the current method of roasting an intimate mixture of slime and sodium carbonate is that higher recovery of selenium is attained in fewer operations. whereby the consumption of materials and electric power is reduced- In pilot plant scale trials, conducted in August and September, 1960 at one of the Sqviet Works, slimes from electrolytic refining of copper, containing 6.0-8.0% Se, 1,0% Te, 19-20% Cu, 25% Ni~ 1,5% Fe, 3z0% S: Card 1/4  S/136/0,1/000/001/008/010 E193/E283 Recovery of Selenium from Slimes by the LGI Method on Pilot Scale Plant and 25-30% H20, were used as the raw material, The waxn constituents of the slimes were copper and nickel. oxides, 85% of nickel being present in the form of bunsenite, NiO, Selenium was present an Ag2Se and partly in the form of selenides of the platinum metals. The roasting plant consisted of an air heater, a slimes roasting furnace, 2 (Ist and 2nd) sodium carbonate furnaces for absorption of selenium, beat exchangerlbr gases; 2 vacuum pumpsc and a pan granulator for pelletizing the raw materials, After preliminary drying (in a vacuum drier) to a moisture content of 15-16%, the slimes were converted to granules 3-10 mm in diameter. Sodlum carbonate was granulated in a similar manner after preliminary moistening to a moisture content of 30-33%, and both materials (in the wet state) were then charged into the furnace, After all leaks had been sealed with asbestos tape, the vacuum pump and the roasting furnaces were switched on. At the same time, the fire box of the heater was ignited and air, pre-heated to 600~-700'~C; was fed into the furnace, In the new method, the heat required for roasting the Card 2/4  5/1-36/61/000/001/008/010 E193/E283 Recovery of Selenium from Slimes by the LGI Method on Pilot Scale IJI an t charge is supplied mainly by air, the heating elements of the electric furnace serving only to compensate the heat losses, The operating temperature of 620-6500C is attained in 2-3 h~ The charge is roasted in a stationary layer (no rabbling is employed), the duration of the process depending on the specific air consumption per uVt weight of slime which, in this particular case, amounts to 5-6 m /kg. with 8oo-900 kg (dry weight) of slime charged in the fur3ace, operating at 620-6300C, the specific air consumption of 6 m /kg of slime is sufficient to ensure that all selenium di-oxide is distilled off from the charge, the selenium content in the slime residues being 0.01-0.1%. 9N of selenium present in the gaseous phase is absorbed by the first layer of sodium carbonate which, after the completion of the process, contains 20-21% selenium, After roasting, the furnaces are cooled and discharged, The slime residue is subjected to further processing; and the selenium-rich sodium carbonate (from the Ist furnate) is transferred to the selenium shop, where it is dissolved in water, after which selenium is precipitated (with sulphur dioxide) from the acidified solution, Card 3/4  Recovery of Selenium from SITMe5 by Plant S/136/61/000/001/008/oio E193/E283 the LGI Method on Pilr~t Scale Sodium carbonate from the 2nd ftirnact., -is used again until it becomes saturated with selenium At present, work is being completed on designing an industrial plant (expected to be in operacion at the beginning of 1961) for recovery of selenium from slimes by the process described above, Card 4/4  GLUKHOV, V.P.; SITNIKOVA, T.G.; FERBERG, M.B. Selenium recovery from the granulated copper slime from industrial roasting furnaces, TSvet. met. 36 no.303-84 & '63. (MIRA 16:5) (Selenium-Metallurgy)  ~~LUK'70V V,P. SIT:T!K(-)V-"', T.G.. FEDOTOV, !.A, Selen'AM flOM S"--L-S by a -i ';~---Sea bY the L pr-. ~~rad Minim- ,i.'.th pilot-plant-. ec-'s-i en4-. Ts~,et.. met, T I" ii, no.l. 83-81, Ja (I'IRA 170)  1,- r-j :,!,-Li Su-J. --(CLL:;~-I "'file import,~.,.Cc 0.--.tile f,,cctrOcard-io;--,~pjI j I - -Lu (ii,, fTic),~iri- cltl(~rcn I - wrLE;ad ttll I lcLrt ct nca-, e C. 1, L,- L, Col.T., V~ ~,Jj xU i . t, ~ p ~ISICCQIIJ LAZItO IA~,LL ILiLt :Ua. IN. 1. P-VUjuVv), ~vkj COPICs ~kj,, L- 4u, J-)57, P-90  006000 Soso*:::* of - If 6 0 0 W 0:0 4 1* 9_9 -_41-4 4 10 11 11 '1 Is 11 'A It 14 if h It 0 Al A 10 11 U U M Is is V 0 IV 1 41 v 1 0 o L D L I k A J I t.-1- I I a to U 't A4 CC git0 1 Is I f 4 40 A _00 Assmilsid;is d Effects of the coactastraidsts of -00 00 A gdrrWg w an *e stsbiRty at oil emulsions. N. 1. No. 4, Ve 00 Kozin al E. IN, ShOw. -7(1M9)'- P`T- -The stiffer speed was 00 It variable from 000to I2Mr./min Oil waseddedat the rate .00 00 .4 IM CC. every =5 a`c* A "us of ley albumin (1). egg yolk (11), Na C&Wftwtewn) L 4.ui. (TV) ware used as emulsifiers. At IM r./min. in emulsions with I or III in tvvictiq. of 0.25% (per sq. pluvw) the %rpn. tax-ors at a water-oil ratio of 1-3.3. With IV (0 "Mrc) the septi. occurs at 1:4.2. With III at 6% the emulsion 0 3! ~pi. at 1: 15.4. With IV at 5% the relation is 1: 10.11. At higher consent. of the emulsifiers the wpn. occurs at a l.weroilcontent. The lowtiring (if the satils. of oil causing 3 00 wlin. depends, w-turding to the concti. of the emulsifien, un the abs. increase of the Amt. of emultifirr anti the dc- 00 -rmse of the amt. of water per unit of we]. of the sells. In a -elation to the amt. of emulsifier. In the emulsifiers, 00 nudied the dispersion depencts alw on the "Iffins spred, rhus the amt. of water bound to the emulsifier is linked e0 00 2 with the degree of dispersion. The unadsorbed water de- -00 ~es with increased emulsifier conen. and stirring spe"L Addrs. of the first portions of oil decreases the conces. to AID .4 a point where the adsorption layer becomes undersold. J. and a slight excess of oil will cause the appearance of rari- fied films lacking the proper mcch. !strength for protect". T. Laane- -00 AID 'if-ILA OTALLVOGICAL tillt&T%;Of CLAS$IPKAYfCx sz- 00 Ili" woo U Is Av It[) IS 16- A 4 F-0 U, -s ------- Is woo 0 0 0 11 11 ; 0* OW 4 Is go 04 U 0 0 a 000900 0 00 00 00 001 0 0 Ojo 000 0 0 00 00 OY"ooooo;ioooooootooooooooooois*Oo*04 good 0000000611  KOZIN, N.I.;.,�ITNIKOVA, Ye.K. Bffect of phosphatides on the processes taanp place in vegetable oils during storage. Izv.vys.ucheb.zav.;pis'r-.cia.~vekh.no-5:24-30 16o. I (MIRA 13:12) Nk-I 1. Moskovskiv ins~itut narodnogo.khozvaystva imeni G.V.Plekhanova. Xafedra tovarovedeniya.prodovollstvennykh tovarov. (Oils and fate--Storage) (Phosphat-ide)  KOZIN, 11.. prof.; SITNIKOVA, Te. Storage of liquid oils and fate In a carbonic acid atmosphere. Sov.torg- 33 no-1:51-53 Ja 160. (MIRA 13:4) 1. laharatorlya shirov Instituts, narodnogq khozyaystva imeni Plakhanova. (Oils and fate)  KOZIN, IT.I.; SITITIKOVA, Ye.N,._ Storing liquid fato in an atmospbere of carbon dioxide. Izv. v7s.ucbeb.zav.: pishch.takh. no.6:20-21P 'W. 10j,# (MIRA 13:5) 1. Moskovskiy Inatitut narodnogo kho2yaystva imezi G.V. Plekhanova. Laboratorlys zbirov. (Oils and fats-Storage) (Carbon dioxide)  EINIS, V.L.; SITHIKOVA, Yu.Z. (Moskva) Differentiation of round tubercular foci. Klin.med. 34 no.8:49-59 Ag '56. (MIRA 12:8) 1. Iz Hoskovskoy gorodskoy tsentral'noy klinicheskoy tuber- Imleznoy bollnitay. (TU13EXULOSIS, PUIJAOURY, pathol. clamif, of circular foci)  SITNIKOVA, Yu.Z. (Moakva) Cavernous forms of peripheral lung cancer. Klin.med. 36 no.12:64-67 D 158. OURA 12:6) 1. Iz Moskovskoy gorodskoy toentrallnoy klInIcheskoy tuber- k-aleznoy bollnitay (nauchnyy rukovoclitel-1 - prof.Y.L.Aynin). (LUNG NEOPTASMS, case reiDorts peripheral, cavernous forms (Rus))  & )4 USSR/Geo1ojZr Card 1/1 Pub. 22 38/14 Authors Sitnikova, Title Discovery of rfusions of the Cenozoic era in the Chelyabinsk Coal Basin Periodical Dok. AN SSSR 98/6, 1023-1025, October 21, 1954 Abstract Report on the discc. rery of Cenozoic era effusions in the Cheliabinsk Coal Basin of the Ud,9H is presented. Fomr U33R references (1940~-1954). Institution Acaderl.7 of Scionces U.'R, Ural Branch, GeoloLic,-I-Mining Irztitutn Presented by: Academicim A. G. BetekC,-,in, AuL-~ust 11, 1954  Si"MOVI Z. I- mail Crams section of Upper Cretaceous marine sediments in %*- Southern Urals. Trudy Gor.-Imol. inst. UFAN S&IQR no.61:ASOA 161. (MIRA 15310) (Ural Mountains-GeolooW, Stratigraphic) (Deep-sea deposits)  PIIYHANGZLISKlYp e:t -,rL )f the Tu--:In ak ski e i pallooge- E!kva,2,hiny v Trednem i'-Ic -,2An!.ia.nauk SM Uraltskil f J I no*68). (MIRA 1787)  3rc3rh! z a ~,f --4ar -J.---t les of Trees "and Hiol ~3ci, ;ar La.-,tern Affili-te, No 1, SeP 54~ an di ~.ilsh~:s in ri- -ly .-r kad .:)ci "iltl6ilvostok. 1~453, SU': Ju,:i ~-421, 2 - %!P-r 55  0 0 0 0 see oow'.Wool too 0 0 4 go o f 0 0 0 is It #1 If it jo )I a a A )S JS 0 xA X 11 IJ 13 14 Ll bi A AT 41 A) d v 4 2 0 14 11 I v4 An- t mall city Meal .11 At -it 'r I i A 9 0 a ~&". - 00 C.Orts -.~ so 00 :-SO of of Oo.. i.'00 oe -00 .90 Of mw rwe 4d ibis 6 i6 iiv;~60 of Squ -00 dw is ow Tm~b-c N m S"k lee 00 062~ thRR MUM[ Phatta. A cormpondin, see - WCUMUIAHOn Of IMINOW MW a mallrom-fike supr i% oh. =00 *0 wrved. 11, Cohen 0,3: nee Of 3 COO of 00 1 of 9 TV 00 IJ 00 1 A ffitTALLUNIK-L LITER.TURE CLASSIFKATICh boo ITO., 4~11. lg*o c"1 -~ T v -wL 1 41 Is ft .14 TV lp lp at Er K n It m No n I I 0000 OR 0 9 0 so* Wo 0 0 0 0 0 0 0 0 0  A f A a fl It w u it 11 (g It all, a a J"-b _W"ll a )4 w AI L- L.1 n,f 9 A JIY Y I I I : A of. 00 A go 4:~ -00 r 0 4: -00 Studi" an the 4102yale activity of We HI* plant cell, -00 'ith FOIW to dw form"Utwe of wdo. J. The ffct f imalizatiloa an tha dimdom of ifiverum fictiod. N. %I. si,4X4n. BiohAimiyu 2. L'O-7301,W). In the wivr-6m. Iii-Ifiled plants the hydrolytic action "I (lie it) t1w will. of Allcf~ ;lnd tu a k1irr"j-11ding alcreaw Of 09 in i1., mwouivitarOv routent. it. C"1"', go 00 O'S 90' 600 r "I- -I'ALLEINGICAL I's It Ila` .3.0. -)-PICO U IS AV 43 a lVtVlIWK an Mgt Ka -D. 0 A 1 '14 w a' It a a3 owe: lei 0+015010 1*0 0Goes  0 0 0 0 0 1111 0 0 , 0 0 0 0 a 0 't I , a k it t rIt 1 '0 0 16 I a ILa L .-IA it I. a t4r u m It i I I ALA 06 11 ut, I I lbs peg dk*CdM Of MyOkk SWOR at AS igd~S 00 of A~ k4m r"Wome In cuiovoled P"S. 1. The pro- t i 0 0 st" "Mcd" is drousm-Mdaut U4 amr" - 00 . wbed. Nl-x~ Riakkimiya 2. Oils - h f i i l] M V e v ty o t ta ytic scl A '. 1 Itrr) ~--The sytithew 99 i"WrIaw VMS Pludi"I by thic infiltration tacthod in a Ho. 00 Z of lilants of varying droosht resi,tioniv, at va,riou drsyc" pgoduced arti6ciatly. The inv"tasc WOO% f humidity jl~ 0 0 o , of plants artificially withered isshiftud to the side. The shift is less in drought -rcsLsting stmititt, Whii'll, -0* 00 3 by thi% method, am easily differentiated from non-re- 00 'titamt types. If. Cohen I 00 AID ZOO SO* 0 I -*0 'n t:69 I Lao ASa-ILA .11TALLUNWAL 1.11INATL-E CL.%j1PKATtG. too lie S wee ...... - - A 2 too U s A* '0 to 01 w it R s K cc. Ail A I j a 04 0 jj t "' I E 4 0 0 0 0 O O o . : 0 0 e 0 0 04 0 0 so 0 0 0 0 0 0.0 0 0!0 a 4 0 0 0 0 0 0 0 0 0000  44 0 ~64 e it 0 0 0 a 0 1. 0 0 6 g is I. S 00 ;,j kit) It 00 of 00 of - 00 Measurement of tht oiddiximil -reducing power of the 00 It" YrSeUble tissur- It- A~ Rubill.N. M..Simkiats and I ( * 'q U iko I U 4 d IS d b -so . . . st va. . eo ,"1 . to Li . , or , 4114.11, 1 :,;j7)ctot hit 1W, I - ut a ix,. .1 planti it udwd the 4 00 of 'Jiest Power M .fucmit the drhyd"o-kirm cof ~,vwf- so 00 .f 411111 1 by Ilielvar,,jut thevaldeage fl) anti tho-C , ; -00 The leaves Ycjro A ( or "MWX1 IM alld Im .1,113 (IV) art- vury illaclive is) Ilm .00 I-11~vt. Ili spne of tile meptionally'high rvilitcuix jum,% -00 "I AWlItIlIC ;ICI-I. lit, OX04"On of tit Ilatter in tl~itlx t,_,te pr-,A, cry -1-1v, owing, to all I" file -so 0 Op fl,C (111 11:111 .( I.... Old pt"t-t-t, Un't'r -00 ,,I lite., t.11"N .. it,, "11,101i'm eloi IN- f,t,kl ...... tit 00 qih 11 thmairl-K Ibe I.-I oo'.to OW 00 -4 -hi-I h.111, J 0'r vilainin Ill rhe ~1-1, l"s Ill toy tillittlat-11. I'lle rati-44 -lilizinit lotefflicilix 00 ;.,.,r ,1 1. 11, 111 tild IV Ure and 1 -3, r-p 40 IN 1. fleterion 00 00 zo Is 00 zoo 90 so 00 00 ' so A r 00 ALI LZ --00 00 too r U , o 1 , A A. to An 1 0 to I W -W to o n ; 1 00 so 0 0 of 1 70 q Q i . A. A. #I I It $9 ,.Lj 0 0 06 004 00 01: 0 0 0 0 Is 0 4 0 : : o 0 0 0 0 0 0 0 4 _ 0 0 0 0 0 0 0 a 0 0 0 0 0 ~ 0 0 0 . 4  w 0 - 0 " 0 0 0 0 a 0 1 0000 *00000 O~ 0 r* Vi ! 0 004 000000000 1 of if .1 #1 1, 4 4 " A A 0 A N ~10, of u a to 0 a U 0 A it U to .11: 0 A I I v I 1 "lobtl'i a I A 0 A I L AA 0 M UP U I A 4) A Effect at the flooring of nutritional nitroorn And of PhDot phorus supply on the formation oil carblibirdraten And ni -00 go 111011111 COMPOluillit in 1he iiiijar b-t -00 "-J. o'$, ?" N, S S . ( i" , " , IWA, 4"ihla -,I) I , . t,lk 4A -00 , Moot too". I Ile -ulpur loomot Yl. (do. I, I Khr, ',wt, I,(,,( -I, 4~ ::I; 00 'Ka's than uniler n0vale IMlitkan. The *till "t "ll-'I " -tt~ N 6 1,,wcr ttaiW nutoritiAnli, %% till 11, 00 as kbe, X OOPM, ftfugal Wort ii emit ww, by bjRdwkjl1lPw,,'dmU ill title aft 1h "f-r It .00 so 11 =00 SOS XOO 00 00 175 .00 wo see *0 moo !.lee :3*0 *0 so "e"O 00 00 woo to Do, 0 41 a 14 a 0 0 i a 0 00 0 00 000 0 0.0 0 of 00, 600006 000  00000000000*0 0 o g 00 Q, -- 4 : 6 0 0 0 0 0 0 s o0 o- 64*0 0 0 0 9 0 4 0 0 4 0 w ar 'i v , i1 11 It ., it 111 1, A; 11 U It .4 A 1# Is ?1 0 It 1; 11 U is w f, m 1,a L" 'a' 1, r" 0 00 0 0 -00 0 00 :-so 00 -0* 00 Diaturbmas of cubohydrate metabolillm Of the Chic", 3L f j 's 0 0 tion. XI I l plant j Cicholium letybut) Itsa I Sur- I)JIfill : -00 d ~ SOAP&M,- I3i,ikWmiYu I- t chicory rout (kcreWwo. Sail -00 11.11i.tAl i,-AIhiJhYdrAWC t,"- o1hVir Susws irwrtWe. So that 00 00 it- writ rrutaim, about the Same, Cohelt A =00 00 C-00 zoo -00 00 a Z:oo di goo 00 zoo e u;~ Soo 10 =0 - 0 10 f t:410 I is too* S It Z~- u Vs ci s a Cii 0 'art 0 0 0. 0 0 0 0 0 0 0 - 00 01 00 00 0 0 0 0 0  0~6'44 0 91 ~ 0 0 0 9 0 0 0 0 0 0 0 0 0 0 00 : 9 * 00 0 Il ~ it I* 0 0 see** o1 j I I , f s , 1, 11 ! ., A . II I;, if JD P il D )A J3 Ji- 1)A A J' 1; 11 1' 14 1$ 4 L 1 4 A AA Of I I t Nevellial dirlection of enymk action as to index of drought ra, stance in cultivated plants, 11. Prevailing direction of fircitease action in drougbt -resistant and non. resistant strains of whent. N'. It A. Kobv- A. 32. lii7l. kova. Nokkimiw; 3. 796- ky AlAtfie Kerdlinliv of a drmight-reqi%tint wheat plant. s Yn- "~W"k Imin "S.1 to rrix. N. when the water vontrut wa% miumd by 50470. t'nilvir the ~auiir conditions Ifir IM11AWliC UCCiVily of plI)tCM*C MCMAU'd L.'~A 1111C. S. ac- 4 titt -im Alit straim compIctcly 1-t their ~ynthvtic 00 fivitv when the water toutcnt wai reducAd l'uri-Itiol; if plants bv d,ought k laid to 1w intimately ilha.listmliatireof thritsh"ent rnzynticequil. j f it,, li,inx ti-oc-, whereby thr liviltolvtic activitv I*-- md Ilir votheli" notion i. l"'t. It. C. 00 00 400 -00 i i-A a** 00 00 00 to VITAL,., 1.11."f ".I$i of S 00 It Sit AV 0000 0 00000 00 094 0 0 0 0 0 goo 0 so 0 000000 a 0 0 0 0 0 0 0 0 0 0 0  0 0 0 6 ol : 0 0 6 v or Co- 4, a- P_ _t A S JL A-L-1 f.__A_J X -L I It 9 1 1 V T A I L AA 00 M W Et I 00 _ , T ., 41 1 .61 -to Effect Of Joe temper&hU*f 00 the ftyeNbWtY Of enzy- 11vic reactions as related to the hardiness of the plant. N, ' - - r ,I ~-k~au wid It. A. Rubin. thokkomo,to 4, 14it valictirs of apple uv.-~q. [h, '1111t "f 00 C141111. in file durction .4 11010%,1, mul 111C 1-- - ut i h l llp. er tc cuf at a 11thefic capacity 'x ug of l l l 0* ivs xvmu~ Ant rwris i,m.lv 4urt. At lu%v trinpi., the P 11111 tfrv~Vlmlllv 11vdmiy'1x Ault. IL I'llem1tv see zoo zoo of of 0 ;P . I I i zoo 4CASACOV b-) !;C.Z. AA USiAl Me"OWI_ Che A0 1431 - S L uT1.,TL,.t je 'F11 'S; . Al" f a4 L S I OW 0 N - I V 04 1 A"A o I 1 g g a g 06 0 0 0 4 OR 0 0 0 0 0 00 0 , g ~ ; 0 00 1 * 0 4 000 '0 0 is 0 go * o 0 * o o 0 0 0 00 0~9 0 0 * go 000  d1i. 0 0 09 1 lids$ 'IMIJUJIM 1, 1, 17 18 It D D 26' 21' IS 27 X N Ill 11 1: 1) M b he 1) Ad 17 4, It 12 It 0 LAI a La.--or Is I-V Y. 0 A V T A 'M SC PP Ex A 0 list ..o OPCIif I 00 Praystiling direction of enzyntic action as an isidex of -00 00 drought resistance- in cultivated plants, III The dis. Iplacement of the trityrnic *ju.,I,,,bn'un ,, Is cause of the de '00 *0 Structiods oil plant Als; &lit. N NI 0 by .% K.,Is)jW%A 1b,46 sw 4. 2~ .11!11"""T . &him. Rejeml. Zk.,Y. 1939, %',, It. L'. I I C A JJ. V Th, 111S."lims .,f tile activiiv .4 111%,tta~ .1114 !hr Kfadr% Ili "i-I tlh~ .00 eel on 11, ill 1. K. V . mw AO V. A lit 11, 1110 -1)1-1 .- 'Ilod"t-d by Ow Adit. 4 at, r. It wj,lI,I,I 11'al 0" 1 .... I. z 00 Owity Ill I,a,vs I-luor 1. tile umvV1,114, zoo 00 wyolti 4'11~31Y III she dir-11"It "f h'. Is III, 11111-4 flit' 1,0*41 It OW III-' - 1 1-1 1111-111111K I'll -111 zoo It'- .4 11%. mall, I "Ild lv.14. I.- IfI. I. tw, tl-t a 1, plot"I'Ll'i" I it if,,- it-Il, I I", pli'l.nIC111,11 wk,, , at .4 "lall, I ..,%, .1, 1'. 1 11 ,;, 00 thatt Ili liti: sialli, Kratics. If, wt '00 00 0 40 600 r4 1434 tie 0 & I a I, L "TALLUIP611LAL tiltie-11109 Ct-ilil`KaTIO. U s 40 43 it ~71 a 1 IN .1 1 Mid` if Xg W n 1 24 ft F~~~ '~000 0 0 1* 0 * 0 0 1111 0 0 000000 0 0 g T0606 '40 0.0 0 0 4 0 0 0 0 0 0  4 1 a si it it Ij if U 16 it is 26 D xj9dill 11 ii MIS m 17 1& x In &~L_mrjs Lai aj_&~Nlsa A. A, I go U I If L A I I A 0 1.0 4'. a a eel 8 a- a 0 a At 41 0 4, I I I Tb* anzywc activities of leaves in connection with the ripeasind time of the fruits of various kinds of Apple trees hook- kimiya 4, Ai,.. 1939, No. 9. 41 .- The lkviihar it i- I -I III, t tit Vim, s%-it i it .4 the Carly- and tilt- late-tirs, lillig ksswl' if al'I'le Its, N (III purtwu Litt tic rdatimi%hilo Imisilic at tit, Is pitta) I U "'Ll t" Ylslhr%isar I ivityul mit'r- and I lic 44 11% it %-,,I I" ' " . ""s, Ilivestiflut'll. It wai'lctd. 11141 tit, 4, I1'.Iy 1.1 7, . mila- Ul life 1'-mVi,,, if the vall) -1114 11111,; kits.l. "." , I... 1 ziro. A ill that file lit 11 -ru%idal %4, %qtv ... fits, tit fit, I I, "'hing litill.'. Act"t'llitif 11, fill, crilm"ll tit.. lillillsof apple Irrel call bc.11% Mcd lilt-, III, L.11 IV, lilt and late-rilmllifilt tftt% cvt if Iwfi,rv [lie ;,111K ,rAIKk lit IIIUIF - fruits, [ he lvsivv~ (if the t arlv-i slot iiijig 1.im!, 1w.,,,-, higher ~mlly of Otte hyd"'Iyew ". s'.". ;I .... ... _' a lower 'Vilthe"S aclioll A Idsvii--im-rum i~ .,I,- _fVV(I III file Llt'.-titwning Litiil~ I it -i! i- I wit %:I Ii I lit, file Will IVIIIII-ii hydrid,sSi, 14 1, I::"Vt4l III -)1.- 2 direction iii,yritht-sii. P. Hens; - CIALLUNGKILL LITINATIlk CLASSIFICATION ;z_ =00 113.11. 1 m a is i tiliqlt P(alt star 1 0 o 0 0 o 0 0 0 9 0 0 444 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0  0 0 M 0 'l it it u it wit mits Iii ajob It' Aa L AL L- 1 11 ft I a It- I- ;I R~ 4f c,. A 060CM.is 4~I.*Olt of--#-S a It a It id a AS At 111 .4 U 44 M 6 b p"WiNwag of The musliame mrmbm fif &POO leaves mw thwir pbylpiciagicei imparftmicut. D. A ~ Rablim, mW N. -COMP. f"4. diad. 56. U. R. S. S. 23.24 attivity is lower in "vell of early rurbstime than in late varietim I-troxidaw drerews in 410 a :,*VWS Cd *11 VAI it liell wit It inctemins ikar ,(tht ItAl - I'tw lvttfolytiv ~tctiot, of the invetum in curl% vuticti" i% fit 00 at, itreater than in lat,, While fliffi-F,mys in the ~Vl'- .... .. . ...... lost. Cher%. 'Abf- a - 1, t AOTA1,1UNWEAL Ull!*-?UVt CLAIMPKATIO. 110., 11. a all. .10 a.. ,#t T'n 18 Od 0 00 9 1 OF ON -3 w p it to W41 of 11 1 0 ZO 80* 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 * 00 0 0 0 0 9 * 0 * 0 0 0 0: 00  woo7oi, -000 0 6-: 0 At All a 0 A& 6 V IN IN A A A 4 , A t' 11 it u it .4 it 4 AD I, AN M is X w 0 tou SA Is A. p 4 AN a I. I, It A A L 1, L' I L B I a L a it p A AA a 1A OR a I ' I A . . A A 'tj 1.3filde"At of mats 00 caltyauc dictivity in A 11witsit CrIf nder law-vamprrortarg coaditions, N. M. Ss~kvan .#mf u A. R0,11k. it I I i I Wil) ; 0 34. 1, 101~ Ill . 1""Ibat.1v Vials 1) J .1,14t in whx1i 11w inviritaw If ti- I.Asvirs 1t,A.1 b-n 1~nd It) I~ its synthroull's p"Irci at it' 'd Iv*, Oft Iti(t-Allu lk4i 14 KCJ intO till' IANOV14 jWfUlit1tJ inVA711AW A- ISO A- ;Ift' %faw 112 tetaill 111vit 4smilvAisillit V141%kcily at quitv a hilgh IvvO at lriiw~ I- 1-l, 11'. A M1110.1f -1111, it' Ow dit- twit -I 4ylltjlrjii% ".%~ '11.1 I'v Kk*1 till h-wit. volitt% .,.,1 -111 111 ",,LA 1. C,10, gl~Alh 1111-t.1-11 till mt,vflae. I, of 800 of 'see be* 1400 00 10) I.Olob 111110~61 1 1, 6411f. 014311 too 0 to ' fie 0 o a A A A t N It I 0 0 "J"fif Olat oil NOW AN AN A 0;0 0 0 0 0 0 0 0 90004 0 0 0 06 0 0 0 0 0 0 0 6 0 ke 0 0 0 0 00 90 00 00  f 4 I L-1 . . . IL f- A A A .4 0 a t& tt t I . . . 4F - . 42151- 0o -00 oe The pfevauwg direcdost of Ousyme Witin as on index of -00 dfouOt revig"ace In cultivattill *at@. IV. Th* *604 ad uifA*fWg ISPOW W tMAd Of th# PFMVW 0' V"~Mk"'a* -w and bydfoly*s of pbs"bark - In Plants. X-m-, Simmilkyap -id A. Killwakilva. IflIkki-1310 5- - -8'.-DY the nwthud id vat until I tOW); ~(. C. A. K M infiltnitti-, ch~ ph*%phatitse activity in the kat bWrs "-..a vf4,utm of different P-to -1 -h~t tr*s investi- ' is h h t aws a usp llf Syn1hrliging iirtiv,ty 4 the p I &CtIvIty whm 40~',, I 111~ WAIVt it I'M Ilion the firim I'l- ph.A k .Ijat._ act,% ity trapiway. ubm Ow -W ittlit it 1' 0111 j ago 00 a further itterrawd tile hYlittilYSIOS ""t'"y incri.4,, 11 0 11-1gilig arliyilieA of inVvtjAAC and Of the jsI1kKVhAIA4C3- 0 'C' lit the A-inu- of willminic, lite atilt. (it oultioph(millwics I while Ilic dlpll-jdlm~ .11MI'lit -Intithlitt~K14Y U. Ji so* ~ so TNbT. 6 rh A C I L - ~ -tT 0 M,) Ai.1UkGK1L LjT(fi.I,.jj CL&WIFIC&TIC1. 4 v Wis " it A Sw tv It q if it n It OW lit I N 0 14 0 1At Of 5 sis I 00 00 00 0 0 * 0 0 0 0 0 0 a 0 0 a 0 tie 0 0 0 a 0 0 , 0 0 0 0 0 a 0 0 0 0 0 0 -0 0  a 0 a 0 0 0 111 0 1 4 1 a le U It w Is M U .4 a 10 11 U 13 a 1. V a w I a L I JL- -1 -L- AA 0 CC OP ~2. It C.00.$ P.OCIIIIS AND Diurnal variations ot some biochemical indexes in 00 air plants N. Si-~tkymn and A. Kolqjkova. Biakh-mspi S. All S(I'llill. 11116iflit 11111? 114KIT%. Olt'I111K41-1- JdAtit vilthesifilir invelf- m twil. a 00 00 1-111111.41 it'll t1vells lilvill"ll, olld .411 itlel"AstA I-IIIIAI'M$ -Ilitwl 1. One of ilic f4tttx~ ;itilv% Olasetlorn-Jenstin mq 00 Mcul.4ting phowityntlie,is is Ili,- Itillb synthefie invertAM- 1-,I.gv The il-virl- jt,l~ a, A -I Ja I IT-. 1--a - mi: a ta- tit -ii4ow itivs%utt% Asid a-inting tit Ow (wiita, 41110 If Pri-Iley 00 j 000 , 09 .00 00 2 1 wee 00 071 , a :5ctenu-o~, C- hio, 'r - us~e, 93 7 S a I k A .[?&LILRGKAL LIFFROUGE CLASIIFKATIOP IAO-I~ Q~ woo ! soo 40 jr it S a n I sa, 00 0 0 0 0 All 0 0 0 0 0 0 0 0:4 0 0 0 0 0 0 0 00 0000411106i  i *OF i Wil girt T LA J) 0 0 0 0 o 0 e o 0 0 o 0 0 0 0 0 0 Is M, A is 11 u Is 14 a 10 11 1) 11 it Is 4 F-L-L 16 IA k j _410 III% W IL A k L 1, tj Ij 111D 4 6800$ !_ AT 00 00 90 00 go -00 9 so Degree, ot water saturation as a factor eggUlgfing the effect of inverts" in plasts. N. %I. ,;j%,4kvaft jrld A :00 K-4-akovs. C.MP1. rtn& di'ld. ii:i"J, .:- ff. S. S. 2'8,' 2(IIW))(itt Ckmia ). -I'lo, leaf 1,64irs if 10-djy~old 049 -2 ernbry,v; of 2 wheat Zritfti" were %old, with JI'O liv im- inermon (~ 410 min. After rernoval of part of the IfO heyhwi,ri: ~ubjvvted, after I hr.. lo infiftrati-m a,vording I,,. I, method a kin.%anov. 'rhe mstats (tabotmed) 00 'hois that with a run"1141 #Ito content the likul 0 ;'Of . high romint. activity. Stt"nig *to. "( :OW he ;~Il ettilitilefflY 111fip, -Yuthv~im. A'a(vr 1- of tht 00 plan I-lore the normal Ifs0ruitarrit rr.tuct. (Ilk- quibl-siz- ing power, of invertm, while hydrolysis undermoe,* tit) im- 1~ortaut changes. These rmdts agree with other obvrva- j Iitats on the rtt,,et of vjcessivr hunlidily, It-adi"j, to a reduced us%irnilative power in higher platim )it vocM A. If. Krappe !Zoe 0- r.4 A I a S L SETALLURGK4L L Woe too -T 43 a 4110: TA S a It KLO It i In is Av -0 '1 0096 a 0 000 so 00 00 0: 0. 0 o 0 0 0 0 00 0 0.00  IWO 00 0 0 0 0 * e1, 1 1 101 1, 0~1 1. 0 k; SO A r D 1-1 ? ~i R S IS 1 2 r-nl& LAM , r A The thuseW al easym ac" in cossictim with the 10 dfo realmleame of plants. N, U. SisiSkyap. 1*fiody - %, - AW . Nook V. D~ Uchmykk i lam. BsAiim. S. S. S. R. 19W. No. 4. ". Kkixo. eral him 4. _ % ~ -66 90 2 :1 _ _jW_ , 1 t1r5i No. P. 67-8(1941).-Vkolcr MUMMY 411, ur I c ensy- Ou 'mic Nuil. in plants and 41virveaws the lbttjc activity of i x "Go enzymes (invWwr amid pointmeme). I odlect seswially Astiscresult j this the syntimmeimins capedAy of the cAl may Im 1-t atul the decompts. pructmem accelerated. It 6 umOuctl NE ; 0 that %tich d6turbances in the enityinic equil. err thr pt-m- 1 '31 t ipal remiums for the dcalls aml piants fittort dmight. 00 W. R. Wint 09 " I 60,3 00 Ji IW:00 Z. 00 60 a 0 -r ~700 ~;00 1100 2100 ts o0 000 ASS $L& ffitTALLUROCAL LITIMATAoRl CLASSIFICATtOw UOO IN 00 alliji am~ i~w-il- . I 4900 u AV -0 At .6 (1 At a A X , R 0 000000 01000'00000000**000 0 0 0 0 0 0 0 0 URALS Ole 6-04-0 o 0 0 0 0 * o a : : O O : : : :11  .,&,note ' 14 3 XV XPOW 0 411 l 321 7 a ) 1 llis 262721171 El I V It 1: 1] 10 is 16 11 3 JD Ila U A A L-11 _L_j --A -A 1 11 1 1 _114fAx VP_ft4_x_A_ -I- d -k-A, _k__? 11- - L. A It. 004 , A L)%,Iib*rote allmatiou'01 tip a dkiclilij of edItylVit Action 0 in Ilirtne plants. N. NI. Simakyan still A. Kobyakovs. -Cr C A 1941 d $3 B 4h i E 6 1 9 0 - . . . i n ipitya , d" , 4 )( f ); ad Irm3clatative prmt..'" ill thi: feat i; 1 thrinum and NUT'dilwer plants by delo. t)l IliverrA, 9 00 t , 8 llyll"IIIY~6? And PrOteaw ~%Ynthesisl aoinn. kt-ripiv-Al f 00 111t, bodding 'un- a bill 'd tit,- dur'-ft"tt "f :- "Y111C arti'm t-mard :iyrltheiis. Rttll,)Vll c-i Alailing flivill, 'Ji'lPlavr, ill, "itill. of it[(- r..'r thV pfam all ill,- dar"timl "( If,, '1111111A of variation-, in the tiend of enzynne action art- d'-td. Its, Ow PE i InteMitY of (Ile flow of sap and the applied stialilb, ~ Enzym* action on wariom pWs of the leaf. ibid. ~',ii-7 9 00 ill Engli,h, S7)IlV41).-TIje synthr-wing vuja,-ity i, 2 S S A trongeo at the bask-. wtak at the apex unit vcry weak tit . the tnalTm)rlion of the minflower leaf. lit the it-awulm '%'SlCltl the litarkettly bytirolvilt. I lurnix blo~.-minj and ut ill,, twginning ,( trailing th, rate (4 hydrsAytic proce&ws 6 inrtra~d. Thv %yrillit-lia jmxt,-.i arc mt-ret-1 at tit, t-nd .)i fruitini:. 1'. L. :a; As.-It Bg ICIP TAILURGIC&L L111 441 CLAS%WKAT - Be., 4111 a., _$420s1 -11--3" * W -FI is as 9 is a 3 ~101 1 M 0 01; 0 . . I OF 49 a D trio 0 tt is a of Goof 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 oie 0 0 0 0 0 0 1 0 0 a 0 0 1004 96 see '40 AGO too  a is 11 it u t! tie . . . I . I. a Vk JX.- TL 4% I, a 7 7 :flow-! ? N2!-21, 61.4 oe OWIt"S AM 0180,141TRI Wall 00 no* PW zoo d 00 , q IXOO- SO lbe~4ylod d. METALLWMW&L UTI&AT411111 CLASSIFICATION loom 11.6s&- 91" @"Inv won 11114180 "it my so as Otill aw 4~v Ilk LMVK '~JRAK u 8 w a isa-liffoome i's v a lpr~ Is a a 0 0 0000 wq 00-0000000,0000,010 0 0 ; 0 0 0 0 0 0 0 9 0 0 0 0 0 0.0 0 0 0 0 0 0 0 0 0 0 0  4j tj 10 010 0 _~-47 AL A AMI SAW,___ _A. _1_A_j__L,A A. 1 9, a -9 1 AS~Aof PROCIt"s Alm recov.s.ts .01" A. K goo Of hUIIQV Alt lbv .14W lb- UMLL under norwal c., zoo :0 b-d 01 NuYme Ution is mbjwt to dkm" tbvtbm wWh is diotwbld by alterawas in ttw, 4k" bY '08OW rV). Under adign. dt2y*.,j. .W. _ !, age staintains. 00. t I'm$. the P""Wity in the trend of ZOO W. wc. atee 00 !li 00 gee '00 Kit ago, 'a's e UTOATWI CL&WOCA61 j I#&- ".SAW too If IN 5 A a39 V a An A S us AV In Is 0 0 0 0 0 41 0 0 0 a 0 0 0  0 l- 0 ~ ~-- - ~ ; ~ W i f` I !i " 11 1 , k 0 61 1 I I t I Ir " l r y 1 1 L 11 f 4 1 t y ; - 1 i x , v l 09606606 "d pwiss"O with prowrva"On of . vmmm C. -00 00 fi I m tin n"y ( fyiIIS k^e their vij&njj".. JWhInInAry 111at- mrat "ah W~ IsIrwrosi. vitantin 14- al"I Ifillmn., life A"twulAwe And ta~tv '4 the %varsal't," goo 0 zoo 0 zoo go so 46 too I dst o 5 .5 R rA o c-o u a f 0 44 0 0 eie 0 0 0 00 0000000 0 0 0 0 0 0 0 0 0 0 000 0 000 0 0 0 00 0 * 0 0 0 9 0 0 *, 0 0 0 0,0 0 0 1*-* ID a IS 0 * 0 0 0 0 0 0  0e 4 00 00 .1. 00 00 00 4:7" 0 0 Z. 00 00 00 00 - - - - - - - - - - - W-16- v or w w v W-O w 0 . . . . . . tj 1, o I, IL-- L A- A f ki wow bm. am N. t".'. A. $1, MR-Ity the loetbA ad vmvum itstiftratim if Imm Iwrn dmil. thmat the igehadc vvvm~ surtamm" the by*vAyliq- ac. of howitime 111wam-mad4witag prom-Ow*. flown, slolf 11"T"m mew"WAtr. ill dw fl,004. ON b0tabrtk. Wim Ill 410 low isr"Wimmir lvvabl~ to Ilamilmlibmto 4-vet the my"tOwfir. Illis .%N-ugk as file roll W jutmatul mutimucti umid the ckmw W the vetiviating lk-rPA., A hightfor mu-itsw timatul ill the brvt rm.1 solluttic, thof a ii~ hYthtAYtw iilvwtaw levvI e1wed ~t the Iravei jullillc file udu mvitiouLatiolt. I'T"'Ory - . - . . V V V V v v V - V - . -67-co " ro 'Is'lln 13)4b it, 1'. t u VII -0, Im MAIL -1 -t A~ vu . v . a . . . . . . a ~si ~i; & ~ii i ~ii 0 ~i u u its all vion 41 41 #a is axe 1 -A-k-J -A--* a a .6 i.c. 7"i 0 and dm* 69MINg vin tw swummesswe of ftpr in tho IOJ*. I L A II-rlC.L 10:1.1~xt w Name of n it 00 !I : : : : : 1 0* * 0 0 0 0 ***see* 0 0 0 *1* 0 0 0 0 0 0 0 0 o 0 * 0 a 0 0 0 0 as 40' do  A_ 0 a -I- -t- A . a 000- 'W4 6 o Is ord_GT~W_6_0 0 ~4_0 0 'S 0 o 0 0 0 0 0 16 n.141i 3na~. 1''I H Y 11 1. m A, G a 1:0 1 6 ft k L 1 1 'j Y . 1 -1 1 , L AA Ilf CL LIP U t A Of 40 0 00 -46 00 .4: Role of the asawltic factor in dritantining the durch'"I _00 00 - y thalivirigpiantcel]. N NI Si~kv.- In"y - -00 Tr A it 0o the Usic pressure of the Cell UU4 r;ArivqI 11%. 111trimille ",K go A illy, the Iravc~, dirtmigh varuism ~1 vltt%t. "1 -00 ' mvert Niger a ith trullistutol or wIntol. of a limt ~ 4 it, r~ i -00 00 00 A c Ilh- Imirl-.4 the 1~kllll the "lly.l.all vxpl' I-lie bylatilcliv I.r,.*C,%C. .'f 111vvifaw Ill fill, livilix pLait %cit are etthatav"t. by uictmmug tItc txnacit of-mott. 00 cally utive sutmitutiv,. I h,jwmImg ,it the nutsu~ of Ole .00 o0 .;Lw kill 1,11%alls the 1)6111. the Ulivil. A Inver. : 2 ago -11'.u. of file 6 ,1 11t." illit'.111-.1 ~18'vvtt Miltilf flits. 00 _0AIM frucll(l.] tolIA5-0.4,11 31. File Ils.11"ll.l. pt... 00 00 -scs ~lc ilwtv~d in _~' fjvl~ Ow I ; rai-i to duch a level as 11) callw ti'llydrall"ll. 1111111r 00 j vollklis., Which vaim. plawilolymN ~C.A. 10. =111I)a fk~lllt Cal 00 Ill lkltIJ the SYlItliCtil'AtId IlYlIF9?lYflC elleCtll. as 0 00 11. Prie,dey ago 00 zi 5_9 0 zo Mee Va" 1115t. ark VIC. MOSCONd t:oo Soo - - - - - - U TS A, p0 4v ' An L S i; w 0 -Mj tv It it Q ClE it U14 01 1.14 dna. 0 0 0 0 0 0 0 0 0 09 0 00 000 0 1111141111110 00090000 gola 0 0 0;  I* *sees* gee 00 Q*o-q-iF*-fTo-:oo9-o 000 0 00 0 00 gee sees i*oooeoeoeqeeOO*9oeo1o 000000000100000000.100ON a a$; I U 111 31 32 13 w M 111 0 0 IF OD 41 Q a do a IT IS 'ilm A I C 0 EF 6 a A t a P 0 Pi -a I I Ulf TZ I A I JL (x ST 1. IV LITTf-v- .67.04 .0t. -t- is Sq :01111 s0-_ th X F set 001 so_- 0 &A A 'SHIM"l, IXWJ ItIULPIM rP 4111111A J113 %IlA!lIj 11FAI A, jirq 9 Alwo W! 9j%4Spd Bolan, Salul 39 a,3111 Jad lifj!A 34mi alp sea '"tamoll *2131mcK in lp-pad letjjx,u I,, ~pxl to It"liq -a- j0 p- 3q*l 39 lanumn p aliquammad mum aql Ituxiv -(q1aMfpuvlcAM 900 son lit Awn) SPMMW OUR to v"mow pm (g"1 -fl pady) And INUIXXI" un"M &MI&AIll pug IDAIMM asen-I.&XI .1111 !c. 00 MMbw,4 V .,41q" xpqRq, ju 3111"11 Ma a" .1 -wunj,.I ju 00 so= 411.1 all) UI PAWAIN)f3d 404 'w14w4aq.L 'AaawwaiptUlno flow 21 00 'I It," Ill III J3410 4 I'm Xiful Allwns"U" -'All 00 so. 11311A Mul I a 1" .141.111 ~l 13~1 1111111. .1111 P) 3111a.. 0 0. 71f 00 I Ulf UNA japS IV , N p eW &qj pe -p-j v ! 0 e :0 00. 00 s0- 0 0 40* 00 vgo e3 9 it It it a if of it X 19 P If ri If X or 41gott? Itififf" till *I Ing D0 00 0 0 0 0 0 0 0 4) 0 0 0 0 0 0 0 0 9-00-fol-'a- te 10 41 TO 0 -,*--o 0  Fas~_*__W 0-0 Go 0 a a a 0 o 4 0 t --o 0-8- 0 000 0 0 0 0 0 0 0 SO, 0 0 41111 0 0 0 0 : 4r,&- -,G,---&--* a - 0-0 * 0 1 0 iq 'I lz 4 u is A, ), 22 Zj AI n A V Y. x ;I 1) 11 St m V III A 'p, .1 u 6d it 0 -1--l A- IL L_ L a 1-~ 0 Q (L b L OO I .'Is ..0 I.C.1 Ilt-1 1 .11 1 00 00 IrlActivation of peroltidlime with Age in applt tree leaves 00 00 j,IJ ll~ A. Rtilms, 1h, khimf ", U. 31 1. 11 -00 flill 1) 111, diti"r. 0 apple I-V_ 1, .6, V .... II-Am"I I.V '. 0o 8!7 dc~Vj-j -11% Sty 4 Imf 0% WAW ASIA All 1- 11 AiSNI -t I% ON -00 0 of 1k,lyplict ... [A- U."'sill, mAY 1W I-lu"I'able I'm Ow .00 It. eti-II'v 600 %3 =00 *0 coo r p *_klaAJO 43-A KhA a 944 A S M - S IL ABETALLURrKAL UTERATLIRE CCASSIVICATICO C.Z- -.7:. Ito., &a. in. IC. I Q'I Z.( 41"Ilckt m Is AV AD is, IS .0 a IS nd 0 0 3 IF (F IF at 41 x is 91 19 1`9 US cc I[ AS; W n I Ili A~ I It 0 .0 I ace use  0 0 40 0 0 0 0 0 10 0 0 0 0. o o 0 i-64-a of 4 10 4 f f 4 to It u Is I& It N 14 36 ItuUMI&XVIONN #I A) a 42* A A t- 4, 1 A A. (mg W, 9 1.1-1 1 - t, 4, 1 - -_ s o A jh.9-9491&1 - - ., - . ~ I ~ I - M) #I. kfWt 0 -00 0: 1.00 mocbmaim 0( aumbk Mid in 00, # .!,! of 4WxmS. N. U. 9*Wk ad N va=by - ;MI: ;"1. -06 09 1* atks .;M~tetisl is caused bry tion it mmmt~k wid in bkA -00 004 -,!1, and fipn~ "'is due m4 oUk e:uw 015 00 m .00 abo to the epression 00 it. but moo if. Priestley Ole 0 roe ,3 COO u roe eel$ -00 R coo =00 woo VAA- 13 400 S L & 414TALLUDGICAL UTIMATUNI CLASSAPKATON a Z woo are 0 Woes -A %slow -it omv 44C ViAll, CW "W ASI 00 ,~6:88 0 q - -rill W11 a 'm L S a Im a a 4 1 N a -3 .2 a 3 0 9 1 u u At : a 0000000*40000000000 0 : 0 A 0 0 0 a 61  I A A A A 0- _eL -9- 00 4) -00 0 00 0 0 640 0 0 0 0 0 0 0 e 0 0 0 0 0 0 11 u " A w ro A~fk C. -4,.L-L -r- it _L__L A- il P 9 11- L'. #A VP tt b LI r I j 04 -00 Enryinic periodicity in leaves as related to the develop- 19 j-00 mentofstorapandreprodUCUTOorpne. d A, N1. Kobtrzkovs. and N. A. Vasil*va Oiich U~jclictti 0* Ift.,kAimiya 10.303- 1111 MCI)- BY th., -90 ITI.-III-I 4 vewituni W.A. J1. I Md?) it it, '91111 imuld that t he mar athi the Physitil. cumliI6111 .,I I It, plAlif -00 so hl tile vatrietkummicif Iliedbermalibiribut uIucraw,yii- tit-is mut hydrubsims. The Litud o( the diurtiA "00 00 b..i. and the 00 t ,t vastic mom, M - mastpulm fturn the troy" W the 00 Ittant, The hiaher 0 Mpf".1urtive amt werew Greb- of the tIt,- .1"isilind tit tbe CWMARIAM IM PlOtIbf 'he imm in the ChatmM RICAII-f is thr Mist so J; ZOO so !as* !fI i;q :3 sil 1:~O a, A i ..IL A fTALItIP.GK.I. MKII.TLAN CILASSIPICATION low, ...... It L .;Iii, :14 C'. Is AV a. ii It t7 LIP 11 OR As of a 91 a PC if it it a AV 00 0 0 00 0~* 00 0000000 00000 0 0 0 0 90 0 00 99016 11 98~616 00 ~0;1' 0 00 1*0 0* 0 00-0 so Ole 00 0 a 0 0 0 e 0 e 0 0 0 0 0 0 to 0 0 00 so a!  1 POP wx~ I u ir if V U id 14 40 91 42 4) 61 0 C 0 If 0 ft X L D 01~ R I uv - TT a 1 , ST (30 AV S6 n ...v -T~ ( 1.0 Lt t Offs 00- 0 7, - , -7.3 00- 3111LINIL11 1130anlif 1 flo is i itJ i: jai *1W 00 -ud ,)utjd l o alrls - ,A d j 31 sj, j SAIVI ~ I.) q 13 j 4I 10 p! q jou uv q:qqAt jo ~j%nrj 44J "IMI -1q) u1 u4Aa jv-4vpAip ~j tutpAili * 00 tu%!jmqtanIp ju sAuttla ivujn!p jo mols!pm~ itunitru V iqj iapun puv ~~mjjmp ajnIEvb;qm u! %Law% pxI 4rSm lqLAw) J ) aAVJ W/A ISOJJnS f- t1 S a 0 Vt%X W Oe ] U A 00 . ! P, j I q !P , 1 l jp q l W * -u -tvQ- utunu 1 (% a Ajc 00 . t q.L- !y qT ( 00, 00 IV ;11~v% 'N luttAlmi., IV sjuwld i d lA i 1 00 Io sivs,&iob sua 41 I.) $&env.) i1 if va lls4i *11U41 09- ~ i- - -.1 00 -- - 11--___ - -113 o4. 'I., 's, 41 00 IS f, 1. 'r a of st Or 91 it r A 4 14 0 0 0 0 0 00 0 0 0 0 0 0 & A -4 -i A -4 4 A 0 0 00 0 0 0 9 0 0 0 9 * 0 0 0  4io _6 1l 0 0 0 di 0 0 0 0 0 0 0 0 0 0 so 0 09 ~4* 0 0 0 * 0 0 I 1 ' 2 Ii J 17 J I - 4 1 gi . ii 0, ! . A - L-1 4 a Is U I ) U 1 , !" A 1 i-C k , I - r 1. 1 6 , OF A, 41 12 9j Oleo j k . . # , _#,__ L' SO , -040 lec'.-flM -0 I.Crt-ti -f. Biocliensic,al Chw4es in torantoes induced by graftIng- S. M. Smakyan, 1. L. Glaslichrnka, S. A - V I w 1. k, In C. akova (finch Hiocht,in A Nf FCiib 00 " 0 . , . y tivit 00 : ac y i h h l b i l 0 e simu n t e um, ATM total acidity are infurtim y t 00 raw of Imnato fruits of the jectind ami fosirth set4l go-m-ra- 00 tioni from platit.,; obtainmi by Kr3ftifig. Mr,psidaw ac- - o tivity is itiffurneA by the vrildinK. If. Pric-thy. 00 -00 00 IF .00 00 fto 00 ;-,0 0 * o 0 Ar 0 00 0 0 -0 0 1 00 0 0 ~ 1 00 0 0 F '06 ~'S:p t:0 49 Aid. tiRGICAL LITINATtoll CLAIIIFKA I L A PITALL Ito* 'too 0.1 U 0 AV 10 At a I w (ZA An I I a (w 0 1 0 a 5 of If of OF III IT ZI 19 x No a 1;;o-oo 000 0 000 000 0 so 6090609960699:66904 0 : : : : : 10 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Gia 0 41 0 0-0 0 0 0 0 0 0 0 0 2 -00004  9 oo a a 0:6.4 -0 4:4 0 #10 0 0 0 0 0 0 0 0 0 4 -w-w -W-~ V. ~y S -M 111111 M IX I I s 'I-, J. Diurnal fbydtm of The osmotic pressure of cell sap and 0 a its relation to the syntlisslis and breakdown of sucr~ pt. N. Nt, Si~akyau. A. M - Kabyallovi, and N. A. V3siflva i lee it 41:j- 0 '=t 1901): c(. CA. 39, X-17---in the living M14 of higher phillit a hish sI,,luotie prr~tlltr it Uvrottilimilied bV illit-11- :0 lee %ytithesis ct! sucrow. When the thimitic Itr"%ure it Ims, 60 tilt- hydrolysis of mscr~v k Ist-tvirrati-ti. just a-% %with rn. ivine tractioln%, the -motic Isre-itre thowi thythmic chaivW-,; duraug a :N-hr. jIvri,.I. The tvstnolic p!'t-urv i, hight-st at nINNI, and Own dvertat 3, tilt, zoo fee zoo Al St. 4e- &J. ge too _ ;. R, )K 5 4 11,.* ts, A A I a I L A .11AILLPGOC41. LJ?FR&TLQf CLASSIFKATIC" S 3.4! 'aK.1 Is. I -j .--. I -T rw o Is i It % i- U u IT is . -ii ty tv It "IV A( K it ft It 91 It It 01 kL3 Is An t o 91 00 0 0 0 0 0 0 0 0 0 0 * 0 * 0 0 0 0 WO a 0 0 0 a 0as* 0 0 00 0 00 010 000 0 0 0 0 , 0 0 * 0 0 0 0 0 0 0 L 0 0 0 0 0 0 00 0 ft 0 0 So 0 e  109 0 0 0 0 0 0~ 0 7 9 $0 11 12 13 14 h A it V. It u u M H 11 is F. 44 $1 44 41 ore A A L 1; L-1 11 14 1% 14 IIJ 4 i1A I -1 L-L A N Wiv Lzi. 00 00 El?rct of osmotic collcoutlAtIon oll th. ad.,itial"ll Alld 0 0 !.o 0 clution of inTert"a in 6111111911 Of hijifItt PlAntsfi. M j , 00 St'lk-Y.111, A. Nt. Kobyakiwa, mW N A. -00 -V11 it.. h, fit. 00 et, so 1~ -I Ow 00 ZI 1. 10-401%."IN.Stl 11"alitl .4 111%. 11.4- o'l Of if se'l. I'lle 'knw 'mi. 11 11-- 00 v-1, its she .1.itr of vt-gri.itwit 00 izoo 00 -00 *0 00 11!00 400 -go 100 1000 i t:oo ILL- 00, Ila., MJWV if go-, st , i goo -it 0 P, it -11- -0 4n & a Is- It 11, 0 a III a 111 11 19 a Kw Is I isill #MG 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 a 0 o! 10 000010 00 00 0000 0 0 00 0-0-f-1 0 -0 N 0,00- 9090090900 0 0i5  0 0 * 0 0 0 0 0 0 0 0 0 0 0 o o 0 0 J, ZI A e 1 0 -'A* The role of amino acids in the synthesis of sucroge In P, 1111W Skl~~ and N. A. Valilt~l Ui4ch it Di l X&A Sa % -v em. ust., . .. fovow). pl~,j i_iyu 12. 241-9(1947).---The lea%vi of wheat. 9x-A. and %ugar lxvt --re t"ItA I'll, file (IM-V of %uvrow sylitheii4 fly r.&I-1111111 fil l i m lrat on of f 1e amino arid ttvrther with -in, j( Illyr" %Lvu anti sucrow~ The following subisuuct~ 4c. 00 mAilni ~ucroae synthesis when present in small atum, b ut were inhibitors in law emcus.: slytine. mUntur, 09 glutarnic ax-id. w%parAffine, and tryllitilAmn. A%I%trtir avid and h ylat i "I hibi i i ff en ta ne an n t mt. 71ir p ng r u id b auk lo ac s ~Wt y %tilliUlAtillif the lwotoplmii mul bv 00 altering its wltwjj(ivv jvroj~rrk~, this shift% the t,;zytuw 09 J rquil. It. Pri"tiry 00 1=00 00 free go 'Wee Joe 66 05r. U At )A so L IN. goo, 0--e IN 0 o 0 0 o If ~j i0 n 1 1. 0 0 0 0;  0 0 9 0 0 0 0 0 0 0 0 0 0 0 4 0 2i 1% 1. Is Is t Ad 2) 1 Is )v A I, of vU .-I A - A.4 A "Is 11, t, lo , v f 1~ Prevailing difection of MSTirwit Stfm as an Lades d A V1 l i . drought res6tance In culd fi~~ .1 invef"Se by t1sisaft nu - z r=; I . ,,-jilyan and A. M KohrA-4- 1s"'k J! 35. 71OW". -The exl)t,. Cfr iself'W"I"I a all'i 11"'O'llmigill rv- valicties Ort"119, ; - (lf tujim llev(s, Alld (C.A. 31 04111 W.14 tl~l Iw 't he ellivillic fm"IA- (Ill, ill-flitiott of invcrtae aWl tieviwillpil. (,f mwtt"r, A4 -It",votsOll ill'o-mled. J Oil, '14"Ollilve V41%."Ity of tile ptoll 11-1tel drerrawd. ' 1114-W Illml. 1111mlly the rileytiteo Weir rhilrd ioll) mAll i.: I priwe%mora ltwsi I'Ller in Ithtfis ill it Ir1wr .3 -tent th.in its noradimijbi -tv%kcitit vatietil'14. If P : e Is -7 roe ;:Oe SC"'L)SJR M#J"(A7'!b** zoo t'l T5;, -m-- ;- -0 j U SS Ill 10 is --- --- Al~ 0 to toostm It w 5 0 0 990964660 fls~a ; - 464 1 i OT019 : : : : : 0 ~* 0 000 0 0 0 0 0 0 is it 000000 fe 0000 e1  N USSR/Medicine - Chemistry Sep/Oct 1947 Medicine - Plants "Plant Biochemistry in the Soviet Union for Thirty Years, " A. I. Oparin, N. M. Sisakyan, Moscow, 10 pp )4 "Uspekhi Sovr4a~~ Biol6tx~W- Vol XXIV, No 2 (5) Historical development of the science of plant biochemistry.in Soviet Union for the first 30 years of Soviet rule. Discusses some of the more important institutes connected with this develoFmentp and mentions names of more important contributing scientists. PA4OT37  Factors that detsmint the intensity of adso tion of en- sym" 7, plant tissn". %;-.AL,5i-akxarj and 7. M. Koh- vakova A. N. fialth Iliochem. ln%t.. Sf(mmw). Dok4tj* AAwd. N*&JP-S.S.S.R. 57. WX34.0947.1--pipts. with Sucar beet 3howed that inVEttASE a(I.U)rlltiOn floe% not ShOW A clear-cut correlation with osmotic presqure in the leaves, but In the root syster" theft is a rapid riAc of adsorption with Increase of osmotic pressure. As osmotic pressure fixes adsorption or eltition of the enzyme in turgid root@ Increaws until at 32 atm. osmotic prewure a max. is reached, after which a decline wts in. In leaves the crit. pressure is abrmt Is atm. G. M. Kosolapoff  SISAKYAN. N.M.; YAGOROV. I.A.; AFRIKYAR, B.L. Age variation of tannins In grape varieties [in Russian with Rmglieh summary]. Btokhim.vin. no.1:158-169 147. (KLU 7:10) 1. Institut vinodellya I vinogradaretva AN Aroyanskoy $62. 2. Institut biokhinii Imni A.N.Bakba. (Grapes--Variatise) (Tanning)  LLLSAKYAN, N. M. PA 5PTiO UM/Chmistry - &wrose Aug IL94T Chemistry - Sugar Bests "Daily Periodicity of the Absorption Ability In Plants and Its Relation to the Fermentative Synthesis of Sucroses," N. M. Sisakyan, A. M. Kobyakova, 3. A. Vaoll'yeva, Inst Biochem imeni A. N. Bakh, Aced Sci USSR, li pp *Dok Akad Nauk SSSR, Nova Ser" Vol LVII, NO 5 Describes experiments vhIch lead to conclusion that roots of sugar beet possess capacity for intensive farmation of sucrose after free invertase In them Me been absorbed. Submitted by Academician A. I. Operin 20 Jon 1947. la SISAKYAN, N. M and KoByAyoVA, A. M. "The Transfer of Ferments in Plants," Dok- AN 57, No. 6, 1947,  Influence of mineral vlemests = the ademptiou of Invert- ase by the tissues of higher plents. N. M . $i~.%!Van (BACh [lit.-hens. Insi., MwANiiv). Pokkidy A .1; S S. R. 58. 1997- tkI0,171; CArm. Zemtr~ 19iX, 11, '2169, rU CA. 41. 4A30f; 42. (41J.-Grains of young winter wheat were "cuuni-infilttated with "It milni.. dtW to their 4wisin&I WI., All.] then kcpt for 3 hrs. in a moist chamber at tooni truip. The grains were sliced and the ability to adsocb inverta-,c was detd. according to Kumanov (cf. C.A. 41, !k)lh) The dAta reported indicate that NaCl, SaN;O~ and Na,So. lmd no appreciable effect oil the ability to aduld, lit. ,-rrta- It 'llrTen"Ilding K mall% lurtraini allmul'thl.- And . 1411.0 Iff.Aluml a Curr'Wrl.1111, inctri'r In a6mintioll. while NA11,110, And pr- Im-rd a ~vfll greater incrmie. M. G. Ahlar  4,, Biochemical characteristics of dIfferimtvarl"tt 2 of Ves and i4eir relation to the type Of wine. Mi IT a 1, 1. AjIlgarov, and 13. L. Afrikyan. BANX AUd. IV*"k-S.S.S.R., 7-591948),-Thi studied. were, the Armenian varieties Vaskest, Nfalchall, and Garandmak. - Data are given for the amts. of titrata'61e acidity (1), volatile Intty acids (n), pH. acetal, Acif. tannins (total, wntersol., 1% MaOH sol., polyphenots, and pblaroglucincl), total N, tionprotein N, vitamin C. vita- .min Bi. nicotinic acid; gtO- and pdo. ether---ttd. org. estem total JU), neutral (IV). and acidic (V), monome0arldest lucrost!' starch, evolution of Col. adc.. ash, and enzymic activity of peroxIdase, ascorbic acid oxidase, polyphe"al oxidase, and Invertase In leaves, grapestalb, -&&M# seLdst and (or) in must and wine. The rate of syntlests and hy- drolysis of sucro". was detd. in leaves only. The defus. were carried out shortly before flowering, daring flowering shortly before ripening of the ~mpesp at the beginning -ripenhig, at full physiol. matunt. y, and at the time of leaf shedding. Afarked physiol. and biochem. differences were noticed, especially betwxen the sherry (Vaskatt, and Chilar) andnonshenysorts. Wines obtained tram the sherry sorts were=ln color, development of Savoring substances. and compn., in particular in the case of Voskat wine with a blochem. compri. after the first filtering as tot. lows: ale- 11.90 (ebuilloscopic) and 12M% (sp. gr.) (sugar concu. of the must was 24.090'). r 3.00 mg. ~g (as tartaric acid), 110.92 mg. % as AcOH), pH 3.00, aceta 30.8 mg./I total taunins 249.0. 11cli. 54.5. total N 273.5, and vitamin 1.3 vitamin BI 44.0, and nicotinic acid 8W.0 -r. ash. 2.24 /1 . M 4.00. IV I-%. and V 2.50 tneq.A., resp. Ex. ccvt I i, vitamin C, IM11, and pH these, are the bighestabs. values. The amts, of acrtal, tannins, and AcH are approx. twice as high as In the nonsherry wines. M rderences. Wierbiciri..  - N. M. -Sisakyan and S. M rutya a. 6 M U; AkYt3.-VfaVI SMS.R.. Sbormilk 2 bi~- m ode IiYd V -Sucrose, glucose, and fructose were detd. Inio l % o Z of grapes, harvested at the beginning of r t varieties e en ripenj at physiol. maturity, and a( technological maivr. ItY. V1. grapes contained 0.2-1.570 sucrose. Totaltunt.of lucose and fructose Increased with maturity, reaching tic C ghest. v.1.. 17.2-23.4%. at teebriologtcal maiurity. The glu6ose-fructose ratio showed a variation frorn 0.34 to 1.14. H, NV-krbicjdJ  Is ABlochemied nature of sherry wines. ;N B, M, POPOVA, I. A.Yi?gormr, and M. G. kAim- ViwoMiya, Akad. Sauk S.S.S,R.j S~orsik 2. Wm 0048).-Eleven sherries of different ages (1-40 years old) were Investigated, It was found that the sherry-type fer. tre-ntation Consists of 2perlods, formation of AcH and trans. fRrmathm of AcH Into acetal, and that the flavor of sham "Ques depeuds on the ratio of AcH/acetAl rather than on tht~rabs-xrats- The best old wLne9had a ratio of Orj:. esters (up to 26.8 meq./1.) were fermcd duting the. Wnentation. Aging of wines was accompanied by a de~' crtm of esters. Active atcraw was found In all wine samples; its bydroly tic and (or) synthetic activity depended,i an the origin and ageof wine. The higher amt. of tatittlas In i old wines was due to their diffusion from the oak containers Into the wine and (or) to the reduction of the Wdized forms o1 tannins during the aging. Spanbh iberry contained the hIghest amt. of phlorogluctuot (46.0 mg./I.) as cotapared with the native sorts (2-0-8.0 mg-11.). The Intrest amt. of andno N (24.00 mg./I.) was found In the most typical', sherries, The amt. of vitamins (thiamm, riboflavine. and nticin)decremed during the fermentation. Thedifferencesi arnong the samples with respect to the titratable acidity and .pliweresmall. E, N%'Jerwdd---~  son see OOR 000 so- u bi is k v p W 41 41 -1 416 QPns TUN", IT co a c 9 lit ZMOD LiFfle IMLI ypp r 0 a MIJ PMW It W lb&PJUR" 4Itq "".1 al m4w Alf"PW swirma 045 --1 A 11 aq 11"JIMI aqi w. paq"pr on awmamil aqv A 190 =1, aRl -u1- osul - *-A- aql %"W%d ARS P. 1. tR) *"j!jnm3 pa"w" alqwp Ill sit ps" an lotwivirld mqjjq-Amaq%po"oK -q-w-wqMms&uMdui ~C. Ins) *I Allatlwe aql !WMJARM AM* SIR 1911FUMIll ~,r jilln-awisqliqmom alit 6"tal-P 1 11411A fit 1111,01111111 jjPwf1 , 041 rp go" 440 4"1 1AP go ' i i I ~4 ftill All III I-AAA-Ilt- &A&M 409JIOM PEG lt !A"Inlj jq.L. .-(Mljpo W 'Cl vK- "pill 'ui-q--ng q.-M) -R*Agolq 'M V p- -9*-K P, op"Wo 81 -MAE- p memp- F- 4NA112V IF ll a d III a X a n ft It Or of a Im 33 a. w - T--r, -T --c? A n I t w n Al 4 1 f if I I 1 111 1 v wait Ultra alljorsl itil "%I It it It 1 17". "Mal, .0 -A Ali A A-A -A A A -A -M -11 2 A 0 G  *01 4 06" 60-3 061 I IL L N. .1111-Y. ~M~ v. a. FVXOV (111mcb= Inst., lkloacuA). NOW," 3"_9(lV4X).-A large no. of Soviet wines and Cognacs vestip ed with a Redummin qnaru spectiopho- A;1til", Thellight &borption was m--red in the ransr o12MtOlOODfnm. Sberrywinemandcog"2mincontrast to other wine varieties, Aaw Characteristic- at-ptitm .".. in the neighboghood of 200 sit*. The value of the extinction coeff. at this mat. is Mated to the quality ol th~ Acrry asmi cognac. The spectropbototne er is rccurn- mentled as a valuable tm)l in the cluality control of wint, 'And Cognms. It. Pr*stlev ILA RIOXI "Inv ms .0 '1, 1 F adaV 1 1410 Ile "I r Ig aAD a 1 114 0 0 0 * 0 0 0 0 0* * 0*0100000000000044 - - 1 0. 0 & 0 0 e0 0 0 19 4 1 91 6 0 0 a 0 000000 --- ~1906 goo goo loo goo com 160, qo4p 096 soo moo  T )0 On/swain* Buyves Jon/JP~b 19W M"Icine Lemkocytee "The Activity and Composition of ferments in Flastld4 N. M. Sleakyan, A. M. Kobyakova, That of Biochem InGul A. N. Belch, Acad Sci USSR, Moscow, 7 PP "Biokhim" Vol XIII, No 1 Chloroplasts, chramoplasts, and leucocytes contain In- vertase, amylase, and protease. Degree of fermenta- tive activity of plastid matter depends m Its genselm and on the physiological coaditim of the plastid. Plast1do can be considered as Centers f(W blocatW46%0~ which take part in the 'process of cellular conversion in cycles during antogenesis. Submitted 1 Sep 1947.  0 0 0 0 0 0 * 0 0 6- 0 4-1110 6 A-111- I 0 0 0 0 0 0 0 * 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 9 0 0 0 I A L 1 L f 4 I - N '. q 11 j 1% 1. 17 If Tox 11 U J3 U A If 17 11 29 It 1:11MIS IOU 4"r Ii 1, .1 " " 5~ 0 h J L L A P 4 R U T W X Y Aji P# C W I 1 , - ~ . C ( i j 1. j t Aftereffect of various temperatures on adifacpticts of Is- vortase by tissues of Wgbw plainte. N_W, $rakyao,wid 1 iV "S if .S.S.R. 39, T. 1 . Verkhovisevs. Doblefiv Abaft. 00 107-101 194S).-S*mplics of winter wheat were vacuum- 00 9 infiltrated with inannitol soltis. and the sprotits were kept -0 0 at van-its leuips. 3 firs. before detn. (it degree of allsorp. . so 00 ti, it, .1tich was done by slicing and drift. of the ability to so a ibs,wb inwriase fmmAsufroundingsoln. according to Kur- -00 ' so sanov (C.A. 41, )t)lh) for 30 min. at 30 . The ternp. ' * range covered - 13 , with each get being held within -00 to 21 - I-2"d d s the i h t U t i 00 ur . wcr ncrea es a sorp ngt e"p emp. ave variation of W- tr e tem ran e ti n bilit ( 00 o a ex em p. g y g ': =00 f i niatin tol 70 c). The preliminary administration o 00 strOnKlY aCtivatcS the later adsorption, especiallY noticed 00 at I .... t,r teinp. This appears to 1,c a protective niucha. =00 i Th f l i h f l 00 vit o n-st t ow tetup. e n raction o protop asm asa rAi!wtl Adsorption At low temp. is Accompanied by in- too 00 creased enzymic sucrose synth"s and drop of its hydroly- iis. G. Nt. Ko-sotapoff ZOO V 0 P t:oo Ad. wr- IN. L-A too A S S L A ME TAILILLIRGICAL LITERATLPf CLISSIFICATICib .4. 0- ~ T_ U Is IT K) 7 It 1) to 61 K a R SE of - ; a I st it dna: j 0 _ 00 00 0 0!O 0 44 000000100 0 0 0 0 0 0 0 IS 0 0 4 0 00000006000000 0 . is 0 66066060 0 00 is 06siosesoooooeses : : : : : t  0 0 :,To 0 jo a 0 It 0 0 0 0 0 a a 0 * 0 Is -0 * 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 1 T~ a I a 1. 1, r 1 -1 It L L 01,r K i t v Y I I I A. @a x w It 00 00 't A~ -'I 00 00 00 Stru"a *I piss" end activity of enzym T, ij-'~ ol; . Si&&neArM. Zolkovrr, and V. 1. Btryuxu .1 ad. Nauk S.S'S.R. 60, l2l3-l-50V48).-l.cucoPl-t' ad. A from lWet r(MM% were lutolyArd WMI toluene In Acrtw~ buffer at pil 5 At 3")*; bpecituetm were taken ftnin wilted and turgid specimens. hitctrutunicrogrAins of specimens am reproduced. The PlaMids undeno change after autol sis: disi t j i h l n egmt m n t e tW y Y staM with - %r n of f t l h . ragmen s p ater stAff" s . ow a rounded shape of the residual structures without evident fragmeots; thi, ' rvej tuAlly changes to a state of complete lack of struc. i COO turr . rtic nitial invertasc, Im-tivitY wa,% equiv. to 3o jjjg~ gluccl5v per I It dry wt of s ecim n f l roe 00 . . e ter comp ete de. ; a p st nit I ion of structures this went up to 171.7 Ing. ' Smilar see effects werc noted in both the wilted and turgid specimens. 06 Ext". of the pla%tids with W6% &1c. destroy-. their compact structure and leaves behind a reticular structure, sugjs- ' 2 goo tive of protein dbeh,.or wyst&6. f -- Nf. K~O-OT ,j: !woo lys t# B A S d ~ I L A i L -F-I?L-.1 CLOUFKATIC. o e WOO 00 0 0 04 00000010 o o o 0 o o o o 0 o I 0'o 0 19 0 0 0 0 0 0 0 0 0 IS 0 0 0 0 o goo 0o o o 9 00 -0 0 0 OL 0 s -0 -0 0-0 9 go so 0 0 0 0 o0 0 0 -  MR/Ibdiolne - Mnywo lbdlcino - Antolysts JIM 190 Watructure of Plastlds and Actlvlt7 of Foments," - W. M. Sloak7an, A. M. Zolkover,'V. 1. Dlry~Q:Zowal inipt of Blochm Invoi A. W. Bakh, lab of Electronic MIcM Dept or B101 Sol, Acad Sol UM, 4 pp wDok Ak Nauk SSW" Vol L1, No 7 Discusses character or the oboW or structure Of plastids an result of their auto2yals, and roUtiew of changqd-coodltlon of structures to aotlvltv of- ferments Included In plastids. ftboltted Nkr.1948. 7ftft  -0 0 2 is 14 it 14 it of IV )o ;it u a 14 35 16 v A 74 N-' u JL r l' K I kA of Q1 W tz 00 04 Of 00 it 11 14 r 14 -00 00 S w4ro" in grapes. M. St and S. A. Maru. 0 f tyan. JV4NA 61, 491-4(19,111).- Twcn I kt~Y-4 of o CMP" were invfttfitutcd durinic the summer months, it w;&,i Aown thAt the Amt. of su. 00 kmme regularly increas" with ripening ill All vec" except 00 for "Votheat" which showed a drop in sucrow at the point of ttch. ripeness. The asstn 00 1~0,i !A earlier writers con. cerning the atr4nce of suct"Se to ripe grapes Are Ibu% ill error. The max. amt. of sucm�e Joijud wal 1-97, in Pink Mu'kat grape in the ripe stage. G. Nf. K(Nol&poff A moo ljz zoo 40 zoo --0o too PA C74 !boo j TALLVOCAL OtERAT4,01 CLA55IM-71CO '00 --W 00 FO-- Nit K it et - - r! ; ' ~ - o o ..0o 0 00 0 Ali 0 4111as 0 & 0 0 0 0 0 0 000 0 0 0 : 40 a 0 0 0 0 a 0 * 0 0 0 0 . 1 0-0 0 0 0:0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0;0 0 o'*--o 0  Raj /Cbmd OU7 - Pi"PhO27148", !Asti on or ive J&8 - Ckemletr7 - Mastldsp Isolated 11ftoophorylase, in Isolated Plastids," N. K. Slsak7an, A. H. Kobykova, Inst Biochem imeni A. N. Bakh, Acad Sci USSIR, 3 Pp "Dok Ak Nauk SSSP" Vol LX1, No 6 Plastids wero isolated according to previously 4Z, described. method . Activity of phosphorylase me Mam-ed during both decrease mid increase of in- organ:Lc phosphor, and consequentljv in presence or starch and inorganic phosphor and glucoee-l-phoe- pbste, wit-h phoophatase action suppressedby intro- clueing NaF into the reaction mixt,.=e. Tables show 4W 35/*49T8 USSR/Chemistry - Phosphorylases, Action Aug 48 of (Gontd) speed of starch phosphorylation under action of iso lated plastids, synthesis of starch un&er action of phosphorylass of tuber potato 'a 16ucoplasts, activ- ity of phosphorylase in chloroplasts of spinach leaves before and after dialysia', and activity of phosphorylase In vw~iouB elements of plant tiewwo. Submitted by Acad. A. I. Oparin, 21 Jun 48. ' 3!5AqT8  Mbtthmistry - Plastldet Isolated sop 0 Chemistry - NnOmes "PolnhenoloxyMea and Paroxydase Activity of Isc-Lated Plastids," N. M. Sioyakan, Ye.,B. Kavayeva, Inst Biochem imeni A. N. BLkh, Aca(I Sci USM, 4 pp IvIv "Dok Ak Nauk SSSR" Vol TZ17, No I rj"- ,--.\Tables show: acti7ity of' purpurgalin fermentn In Mg on ove gm of dry eubstance with '210-minute ex- porura, activity of ferftntF; In leucol)1asts of aug&,r beets before aa after autolysis In mg of rumi.%rgal In vith a recalculation for me gm of Ur 'M 32149116 USM/Chemistry - Plastids, Isolated (~,ontd) SeP 48 substance, effect of osmotic concentration of the surrounding 9olution-on the desorlotion of ferments) &n& effect of centrifuging an the desorption of lqueoplaste of beat sugars. Submitted by Aced A. I. Oparin., 21 jun 48. 35/49TI6  laheritance of acquired biochtmicsf lActors in the bvvd Proleny of Vegetative hybrids. N, M, Siakymi, 1. E, GlUslicbmilo, ;&mf N. A. Vamlkvi (A. lii~W,bvm. Inst., Moscow), Problemy Biokbion. r Jfilhur-kr !?.,.I . Ilk". V*" S,S-S-R-, 1.1 Fxmllw If ildirti(allce of bitkAlvits~ illd%:%e, (-,I. -g-'. avi, lit Y, 'k-winbie I,, I It L'I'linAlld T d%. d-i" Content, tlivil(filis. 11641, allif 1-1-1 alld IRIN. actmity) ill tile -,~J .,.k,t tile graft hyt"& among v4ricfit~ of 1-ch plant,, Ica%c tile f,Il- ll,wing rcNall". The seed p,ogetly 511- the 'If 1-111 hylWiJ COMP01WHIS. X'L-gk1.l1iV1 11~111i-lr 11311w ill "Illituced biochrl". -, 111.0 tile r frmls both iljitW indii,idlial" "11,11 tile flills"A -,mch progray differ from tile jurvill fruit ill X, well ;&5 in chem. tinnim. thu,, AmAisig inberilanc, If Jc- Quirl-d rjwrjcteristic~. vululnillolj~ tabdiltvil 111t3 Are 111pplird G. M. K--,I,Ipofr  Enzpnr systenis of Micburun varieties of apple trees 1; A. Robin ~Ijd S. NI. sila~ xj,jA N. Ilikh Ili.k-l.cm P'OmeWVY-jVh= *'r AbAtirs"TC4 SN-mik, No 1, 41.) -ulv-uinmer tiliening vAricties of Apple have verv low Ied- 1wro"l-e Activity, while the late-suntmer varictic4 II.ive ultber hixb activity increusing the Later the ft%t-n. Hir higb"t leal Vier% Alow the high"I icti"tv. u bile 1. 4 'ph'j-lo.j. 14,0 '11'- 1 Ile J-C"r t. cit. 1. Volvine, ".gol.1ting ImIlAv'k .4 t.. ...... -~hmld- m thr rmlv varictiv% of the pl-mit. The % -4rieties Otow rapi4t In.Lctiv4tiun of enevnxie ,Ymhe,ii at 0'. while the mi,imil &-- t.- if- ct,-t, -11~ it .. to'. lliotraw% ali hoe (licit -vitthctu- abiletv m-ne re-4-lify in nolurc%krAnt (011115 ULM III t-i-tJilt (IM1114. -m ""t invic'i- '4 the hydrolyl ic frai-Imn., Ordt - .nt f1sn"11.0tally Young Inentor plants (ackordilig to Michairin; technique) can wrve to Improve the plant qu,tlicr bv the influence on the aN-we-ciml cnzvme ivstcom Pre. limin.irv ji~. ;-"ult. are itivro in tabularbri". (. M, K.  4f Enzymic activity of hereditarily hard wheatis changed to h.rditArity .(t chests. N. M, Si-kyAn V K tud N. A. (A. V Mkh MnAirrt Ill't I NI.- 1',AIrmy 1144him. r Aliku,in,ko, 14i'V . ..I kad, Nq u k S S.S. R.. Sb,,, mik, No, 1, 1122- 10 1 ( 19 19); cf. C.. I - 44. .mi.n... --rhe dotydrogeume system of the aitcreI whem th Colues Ow it) that of naturally soft wheat. simiLtriv the It,jlilmmy cncff, npprmtchvt file higher fc%rk 'j file )ft 1. it,., t. aml twroxi.la-e m-livitics re- ,:..kill appmx citim., white 0,,mviaw appmwett" the fc,tI, fItIll'i ill -ft W11'.M. ('. Nf K~Iapofy  Direction of OnlyrniC transformation of CJUUohydratcs of heredit"y summer forms .( wheat that had been altered to hereditarily winter (onns. X, M - K. v.sn. and A. Xt. KobyALov.& (A, N ItAl Ili- h,in. I-t 11 P,,Wmv 144kim. r .111, hurl"40 P-.' Aauk S S S. K , Sbworik. No. 1, 102 1~% 1919 1, t' .1 44. -SUfunn-Ir forms K,( %im.it thAt "'Ic In. training into the winter forrus ., 4tilt in th'. efut Iflic of an",.-, the ctilyinic 't, It"ff ivid, [K-, th-"I.,platitm .-f it. Irwin tic I'l fill- I"'.. I I. Iup ~*,W bfgh v; mqlklA inIrf 11. ,4  SlSAKYAN, N. M. FA 54A9-16 Amu USSR/Biology an 49 Academy of'Science-6 "In the Department of Biological Sciences" 5 Pp "Vast Ak Nauk SSSIR" No 6 Corr Mx N. M. S1sWq&nIs report, OFermentati've Activity of Protoplasmic Structures," described experimental studies in the structure of plast1de. Discovered a whole series of ferimnts for the first time in plastids: peroxidase, polyphenoloxidase" cytochro"moxidase., phosphorylase, proteiae, and di-L hyr1rase. Discomered'anylase, invertaae, proteasaj c7tochrcmoxidase, and debvdrase in leucoplasts ant chromoplasts. go- qh/kQV6  SILSAKYA1111f, N. M4. PA 4 5 /4'9,T- 5 50 USSR/lIsdIcine - Bloohemistry Jan/Feb 1#9 Wdicine - RAzymes, Xrf6at "Permenting Activity of Protoplasmic Structures," N. N. Steakyan, A. M. Kobyakova, Inst-of Blobben imeni A. N. Bakh, Acad Scl TEO, Moscov, 7t PP "Biokh1miya' Vol XIVP No I Investigites activity of feramte In cell structures, and stability of ad orption links of these ferments vith lipoproteld cumplex of plastids. Studies feruents: invertase, phosphorylass, peroxidase and polyphonoloxydaoe. States conclusions. Submitted 7 Jul 48. 40 1 45/4M5  PA 54A9T85 tVW/Jbdic1= - ?]Awtldg jul 49 )bdicine - Biochemistry ffDehydrogenases of Plastids," N. M. Siskayan, K. G. ChamoNa) Inst, of Biocbem imeni A. N. Bakh, Acaa Sci USM., 4 pp "Dok Ak NaukRFISR" Vol =Ip No 2 Cceparative study of debydrogenasic activity in chloroplaets, cbromoplasts and leueoplasts showed it vas greatest in chloroplasts and smallest in leuco- plasts. Activity in chrozoplasts was not observable by the methods used. Submitted by Acad A. I. Oparizn 21 maw 49.