SCIENTIFIC ABSTRACT PSURTSEV, V. P. - PUDOVIK, A. N.

PSHnOVSKIY, ZB., Nauka I Zhizn'p Ho 3, 1972# pp 20-21 springs contains almost the entire ComplOx of minerzl salts necesuary for th3 development of the plants and a suficlent amount of carbon dioxide. All of this created the ideal conditions for a large algae farn, In Rupite, It rewdued only to select the strain com-sporiding bast to these conditions mid to ifork out the ba-st, system of cultivating the algae. Tho BuIW~xian scientists dealt h 1 5 U ith both p=blez- very quickly. Scient Tic wo:6t. Ix-gan In' 1967, Chlorella rulgarin S. Z. 8/1v -which proliferates in a wide raztge of temperatures -- roll 23 to 410C., iras selected frozi several stmdns. Nlora- overl it turned out that- in great concentrations, it possenzes capacity for t he rnoregulationt uhich is extreaely favorable for ita cta-Livation, After the nolution of tho biological, problP-n2p it was U2,-Irr to salvo technical probIc-m-st creating correoponding apparattifir firmt on tin aental,, then on n4i induf;trial ocalu# Tochrdaal aid to kolhozes was rendered by spocinlintn frox Ov-,-choslovakiat the W-JUO ard Pola-111., The Poles In p=ticular, provided one of the moat inpor~~t elebients of the apparatus, a higbly productive centrifuge. Thus# Chloralla is cultivated in mineral vater fro it hot unrings. F.U-stl, the water is cooled and deg-assed, The'isolated carbic-,mic acid goes into collectors# while the wator containing dissolved mlts iu direzted into the closed cycle of the field apparatus, The j5hallowt slIGhUy inclined,  PSHIROVSIaYo U., Nauka i Zhin', 110 1 1972t PP 20-21 .open chute sinto which the Chlorella 1e zoua is conzectod by plTcs to the collector. The waterl containing tho Chlorona, flows dD-kn fton the chute into the collector, A pu.,.,p imrediately retu=a It to tho chutes, and in this way the conditIons necessary for a more intensive Photoaynthesis proce~sss axe achieved. The water flow in the chute-z is stopped by the on-Ure, System of partitions. The water flous from the chute to the collector in 5 minutes and Is delayed in the collector for only a -few &econds. With each cycle, the water contains nore and nore Chlorella, and becomes gxeenor and thicker, Harvesting the crop takes place in the even1mg, The Chlomlla- enriched imter is directod froz the colleetor -to the centrifuge, 1rhare the Chlorella is separated from the vater, Tho clean water is pmyed back into the field aDpmtus aX4 water lossas are filled by fresh water frOm the apring~;. onic acid is stomt). aftor fresh water On'the way to the chutes, the water e~.trb is degassed) and with sevoraJ 11.'extilizers containbig phosp*.tjom~v calcium, and potassimi. Cblorella in the fom of a dxy given r,=~i U tho fini4rhed product. The farm in Rupite and its guardian Institute cmuipt complain about lack of Interest in it-3 product, On the contraryg tho intareatel j=-tics are impatient and would like Chjoxvlla~pmduction to procoed~on an Industrial scale now, while the scientlate.st.'al need Some-time for e#arimenta and 4/5 79 -  OSSR PSHIROVSKIY, ZB., Nauka I Zhitn', No 3# 1972, Pp 20-21 The first forms of products containing up to 30%, vegeiable protein obtained from dry CILlorealla mass from the famit In Rurdto have already been made. It is -said that an uninitiated person could not distinru1sh between those products, and the usual reat p*.oteino,: Promising x~--sultz have Won obtained in experixents irit,"n Chlorella protein added to poultry feed. The meat of chicks xecelying this feed wa's found to b-- of higher quality. Egg laying capacity va-* aignift =-tly Increased (by albout 20%) in chickans. The aggs wrere distinguirhed by a high vitamin content and -- which is very important for their transport -- 1Yj a strorger sholl. Czechoslovak scientists were able to work out an industrial mathod. of obtaining f,,LU-valuc, nourishing broths for rAcroorganisms 'froll the algae protein. This excited a great interest in Chlorella or, tj,~a pAz!t of the pharmaceutical Induatry, An unexpected Chlorella consumer might even be tbt jerfiLme industi.7. Aromatic compounds have been isolated from the dry Chlorella mass which are used in the produc-t-ion of the finest perfumes. 515  USSR UDC 621.1,91 P., DIANOV, A.P. tion" Differential System Of Binary Detec Kiev, Izvestiya Vuzov SSSR--R.-dioelektrcnika Vol XIV,N0 l0r1971, pp 1203-1208 Abstract: A differential system of binary detection of pulea radio signals is theoratically investigated. Precise expreasione are found. :Vor tie aharacteriatics of detection. A block diagrara is presented of the difTerential system which con- tains a signal gate generator, a radar receiver, a control gate generator, a reversible counter, and a period counter. It is shown that a differential system is significantly less sensitive to fluctuations or the quantization threshold than the ordinary classic system of binary detection. Receivad by editors 6 July 70; after revision 8 Fab 71- ref- rig- tab- 61 -  USSR UDC 593.374 ANDREYEV, L. V. , KIM-LOVSKIY, L. T., BOGAM1, G. P., ZTAKIIIN, Ye- A. , Dnepropetrovsk "The Problem of Stability of Cylindrical Shells Beyond the Limits of Elasticity" Kiev, Prikladnaya Mckhanika, Vol 18, No 8, Aug 73, lip 38-14. Abstract: Results are presented from experimental studies of the stability of cylindrical shells made of Alklg6 alloy under axial coupresston and lateral external pressure with various R/h and IZ/L ratios. A comparison is presented with known theoretical solutions from the theory of small elastic-plastic deformations and the theory of flow. Good agreement is achieved with calcu- lations based on a geometrically linear theory of defoiiiiations,  USSR UDC 621.-"/8);,546-191681 PrM,HCHEMKO, A.A., PRESNOY, V.A., KrRUGLCV, I.I., G0LE!.;bIYE-ISKI%-', N.N., A. P. UEX(:eee Currents And Afing Of Light-Fmitting Diodee Based On GaAs" Elektron.te~-hnika. Polunrovodn. nriborv, (Elactr,)nic Techn-~ca. SGientific-Technical Collection. 1971, 7(64), 16-20 (from RZh;EIeIXtrouIk& i ycye No 4, April 1972, Abstract No 4BY+7) Tranalutlion:. The &Ein.51 wuc otudied of GaAs light--emittirF diod, F., vith zinc, s!3 t~e acceptor. Both converitional and anorailous a~ ,ing was obrierved. It io that the excoce currento responuible for aging consist of vol-uma and. eurf-ace components ani have a tunnel-thormal riat-ure and are conn:-I-cted with nonunil'urr, itiee of the p-n junctions. ill. 5 ref. Surm-mary.  A4 UDC 537.311.23 USSR LASHKAREV, V, Ye., PTASHCHENKO, A. A. "The Kinetics of the Impurity Photoconductivity of CdS-Type Semiconductors" Kiev, Ukrainskiy Fizicheskiy Zhurnal, Vol 15, No 7, July 1970, pp 1108-1115 Abstract. The rules governing the linear and nonlinear relaxation of impurity photoconductivity from the r-centers in CdS-type semiconductors were investi- gated. The experimental data are in good agreement with a theoretical model which takes into account two recombination levels with very different electron- capture cross sections. In this model the light absorbed by the impurity simultaneously causes v-zone-r-level and r-leval-c-zone electron transitions. This model explains the nonmonotonic relaxation in imp~trity photoconductivity. The above-mentioned considerations permit some parameters of the recombination center in CdS, CdSe, and HgS to be determined. . . . . . . . . . . Mill  USSR UDC 771.537.33 VENDROVSKIY, K. V., IrEYTSHAN, A. I., PTASHFNCHUK, V. M. "Signal/Noise Ratio and Quantum Effectiveness of Differentiation in Photo- graphic Emulsion" Moscow, Zhurnal Nauchnoy i Prikladnoy Fotografii i Kiner-a-tografti, Vol 17, No 6, Nov-Dee 72, pp 426-433. Abstract: The quality of photographic materials of various sensitivities can be characterized by the quantum effectiveness of differentiation. This value compares the actual detector (its I'signal/nolsell ratio) to an ideal radiation detector, the accuracy of reproduction of which is limited on]), by photon noise resulting frain the discrete nature of th(-;, light f lux. The macroscopic quantum effectiveness, determining the effoctiveness of record- ing of large parts, is distinguished from the microscopic quantum effective- ness, corresponding to the reproduction of small objects and considering the scattering of light in the light-sensitive urtulsion.. This work presents experimental results of determination of the signal/nois~v ratio and quantum effectiveness of films of varying sensitivities. 147 -  .112 014 UNCLASSIFItEO PROCESSINGDATE-27NOV70 'AT I ON OF ALKALI METAL METAPHOSPHArES -U- ~'AUTHOR-103)-VOROBYEV, N. I PECHKOVSK IY? V- V- PTAS14KOYAP G.V GUN TRY OF It4Fo--USSR 75OURCE-U-S.S.R. 266,745 REFEREI --GTKRYTTYA, IZ36RET., PR(lfl. GBRAZTSYP NC E TOVARNYElVJAKI 19701 ,-.DATE PUBLISHED-01APR70 tUBJECT AREAS--CHEMISTRY ,TOPIC TAGS--ALKALI METAL~ PHOSPHATE, CHEMICAL PATENTP CHE.MICAL PRODUCTION CfJN.TROL MA.RKING--NO RESTRICTIONS 00CWMENT. CLASS--UNCLASSIFIED OROXY REEL/FRAME--3003/1074 STEP NO--UR/0482/70/000/000/0000/0000 :I:RC-ACCESSION NO--AA0130109 W< L A S S  014 UNCLASSIFIED PROCESSING 0ATE-27NOV70 CtRC ACCESSION NO--AA0130109 /F-XTRACT--(U) GP-0- ABSTRACT. ALKALI METAL imc-rAPIHOSPHATES, SUCH. ABSTRACT AS KPG SU9,31 WERE PREPD. BY TREATING THE CHLO-910E OF THE APPROPPIAT-E METAL 'WITH A P COMPD. IN THE PRESENCE OF 0 AT HIGH TEMPS. POCL SUB3 WAS --USED FOR THE P COMPO.; THE ALKALI METAL CHLORIDE WAS USED IN MELT FORM; THE PREPN. PROCESS TOOK PLACE AT:SIMILAR TO 1000DEGREES, oFAC I L I TY KIROV, S. M., UELORUSSI AN TECHI'40LOGICAL DISTITUTE. -iSSIFIED  USSR UDO 519.2!62-50 PT3:CHKM. YE. V. "Analysis of Automatic Control Systems Consisting of Protability Static Components" Minsk, Novyye elementy sistem avtomat., telemekhan. i vychisl. .tekhniki--Sbornik (New Elements in Systems of Automation, Remote Control, and Computers -- Collection of.Wozks), "Vysheysh. shkola," 1970, pp 104-112 (from Refer-ativnyy Zhurnal -- Matema- tika, No 6, June 71, Abstract No 6V260, by Ya. Kogan) Translation: The term probability static. c'omponent refers to a component whose comprehensive characteristic is a standard law of distribution f(y x), where y is the output and x is the input coordinate of the component. It is assumed that all sys- tem links are statistically independent. Integral equation5 are derivera for the laws of aistribution of the output coordi- nates of a closed system consisting of these components. A method for determining standard and no-n5tandard moments of the output coorainate of a closed system by the standard moments of an open system and nonstanciard mioments of the input coordinate is proposea.  112 012 UNC L A S S~l F I E 1) PROC E S S I N,~i TITLE--ON T14E ROLE OF THG MAGNETIC FIELD IN A 41AVG THEORY 01. STRUCTURE OF GALAXIES -U- L.S.w PTITSINAV N*G, ;~COUNTRY OF INFO--USSR OURCE-ASTROPHYS. SPACE. SCI. (NETHERLANDS), VOL. ~7, NO* 31 _.~~JJUNE 19701 -DATE PUBLISHED ---- JUN70 ARFAS--ASTRONOMYtASTROPHYSICS JO-PIC TAGS--SPIRAL GALAXY, INTERSTELLAR MATTER CONTROL MARKING--140 RESTRICTIONS DOCUMENT CLASS--UNCLASSIFIE0 DATE--340EC70 THE SPMAL P. 437-45 lRROXY FIC.HF 100---F070/605030/001 STHI i'40--NE/0000/70/()07/00'.3/0~t37/04~i-5 c Ipc.-ACCIESSION' 41 523 u N u L--I _~ 1. 1 E: Ll  2/Z 012 UNICLASS I FIED PA ()C C-*5 S I iNG DAT E-04DEC70 ACCESSION N---AP0141323 :-ABSTRACTIEXTRACT-W) (;P-0-- Acss-mACT THE SPIRAL 4AVES IN P, ",GOEL GALAXY COINSISTINAG-OF THE DIFFERE"NVIALLY ROTATING INTERSTELLAR GAS AiND POPULATION f ARE COf4SIOE'RED. THE INSTABILlTY OF SPIR4AL WAVES IN TI-4f-: PRESENCE OF DIFFERENTIAL ROTATION AND IMAGNETIC FIELD IS FOUND. rHIS INSTABILITY MAY LEAD AS WELL AS THE LANDAU INSTABILITY FOUND 0w k, MAROCHNIK AND SUCHKOV (19681 L969) i-O THE FURMATI N (31 AN OBS& VABLE SPIRAL PATTERN IJN A SHORT TIME. IT MAY PLAY A DEFINHIVE -,-'.OLE IN THE 'SPIRAL STRUCTURE FORMATfON IN GALAXIES WITH WEAK POPULATION [1. (3 o REFS). FACILITY:, ACAD. SCI. TAKJIK 5.5.R.9 DUSHAWBEF USSRa UNCLASSIFIED-  -73 UMI 577.;s ZMr-CRIZANIZATION OF PROTEIN MLECULES [Artic)p by Doctor of Phyeical and 0. 1;. ve_-tni~ ti Valik SSRR' Ruzzslarl' NO-9-7--17- Solving the problem of pro Lein, mez-r-r., learning to syntbe- q1ze an arnino-acid -orluence capable of spcnkanoously turning Into a stable three-dimensi,:)nal structure which will perfort".. a given function. To do that it is necessary to answer three principal questions: 'I) how does a cell synthesi-ze a polypeptide chain with a given amldo-acid sequence? 2) haw-ts such a chain~self-organlred into a given three- dimensional structurc? 3) how does tho obtained three-dimensional structure per. form a qj~ven function? Thq fIrnt and third questions (on protein bionynthesis and on the connection between the structure of a protein ond its function) are for molecular biology, and in worL- Ing them out qen,~-rall_y known major aucces-4es havP been achieved. An for the Second quvsLion, (on the self-orgatkization of protein molwctiles), it wns pcr,~d only rantively recf~ntly. It hecame p-3ssible to sptak property about the self.-)rqatitzation of pro- teins only when it had been shown that denatured proteins are capable of spontaneously reatorin; their native structure after the denstur.Lng agent Is rewoovvd. TL was concluded from that that tho native structur,2 of a protein moLeculo corresponds to its thi-rmodynaiiically most stable state, that Lis, a minimurn of its free ener5y. It was assumed that, both in the process of rena Luration. in vitro and in the process of self-organization In vivo a protein molecule spontaneously acquires such,a struc- ture as w result of thermal motion.  Z., dep~irLmvtd-j, n~t~.ct and :,Irv -,tP.,ra onul n~.v, E'd.-Joln- trative To administt~r 'J~'nural 111-stitWc. un."It- gvnLC de:-,tyn otficp~z, t"si eta), a nc,~ urt;an 1~. cvv~4tf-d -- e -3ir~cwr!~ m,~etinn in .!'-'~h t~ie oil I ector of tho Institute 3nd jjj~,; dpijtj'~s pjrticip~'tv.. By or,en !)illot the pirticip-ints in tnt- r.~,,tAta; appei%- the diecror,- of a ntml;.~.,: of scientlilc of the AcadiLmy Plected or r-r-1,:cted for a no?w te,-,i by tha 1~partru-n . Approved an for the r7rn VJNITI (All-Union 1-stitute of SciE-tifir awl 'rCchnic'; Information) -- Doctcw o1 Technical Sclenc,:_ A. 1. J~Lhayl.:~A'_ hath~-(nntir.n Inzt~ltu~r. 1-ni V. A. Ste'_Iov .- Arad~,mlri. I- 1.1i raCav, jrqtJ_t,#,p of Hiqh-Prerrure Phfniv.~. -- Aca_ dt,ir,Lcian L. r. lnrt;.LUt,e of Phy-,C31 Problcms imoi S. 1. Vaviluv -- Acadeici?;n P. L. "KaDitsa. Xnstitut'~. --f Rad', Engineerinq and Clectrpnirs -- Acedc-micimn V. A. Cri.ML';~n Artr,,.,phyrlca1 Latioratory -- A. B. ;5-~,C Phyzico-TLcnn1raX Instltut~? Imeni A. F. lcf!~~ -- Arzadrmiclan V. M. Tuchkeviclq and Irxstitute~of High Tvn:~-eza~vrcr. -- Carre. spondinq Mqmber of the AS USSR A. Ye. Sheyndlini Inntitute of Petroch~mical SynthesIs llm.~,nj A-- _V.:t'1- chjy_Q,v -- Corresponding M~embi~r of the AS USSR ;i~_S. Nqn~tkln,; TnstitutP of lletnroorqsnic Compounds -- kcadeniciln A'. Tn-~;titute of Phynical Chemllztry Institute of Chf~rnistry of the Vashlnir Ptarch =_C6_rz( *pondlng Mrmber of thp AS USSR S. R. Rgfj)~ov, jn,~Jtut.~~ c:F 1C_. tallurgy of th,! Uralz; Correspooding Mctt", of the AS 11SER A. V,-' t n.' ln,~~titute of lm.!ni A _P~jkb .- A' zncm.17,vgn .1r. r. lr.,~tit-jOt of BIO.ChLmi. Cry and N%y!i.tology of Corrvz;~.-3ndinj mcm!~or of the AS USSR V S%--bIn I rnstL~utp .~f Aca- temician A. Ccrre=pondinr, Nember of t:le AS USSIX A. In&titute ot INJ~,jogical Phymicu -- Acedomician G,.~F nk, Institutsy (,.f Phyriolrgy imeni 1. P. Pavlov .- Acatk,-fttlcion V. N. ~' Tristi- tute of Plint Biology -- Acade-miclan 13. L. IrisLitutc uf the Ev~)lutionary Morpholaqy and Ecclogy _Imeni A. N. Severtsov -- Corresponding Mcmbrr of thc AS VNSJ~ V. ','e. So- kolov, and the Institute of 131n1a;y of the Ba-jhtar BrO-FC1T--:- DO-Ctor of Agricultural Sciences V. K. Girfano;~. ';' , ~TA , Inqtitube of Geology of the Dage-.tal Brarlclh -- Candidat f Geological and Mineralogical Sciences X. S. Nagjtayev, 4  SECTIOX. TV L 5 Reqearch Institute, PUShChinG '~Cac,ription: (U) During this quarterly reporting period, two new articles were Ij ls~ocated from the Protein Renearch Institute at Pushchina. On the 'basis of one of the artlclvr, which dealt with archarich'a ccl'- riborc=cn, :Lt v--:: pozz:rillic Z= ancociatc ono new person, H. 1. Smirnav, vith the inztitute ( 3 The other artirle, also,on e;;rhrrichia coli, wan issued jointly from the Institute of renctics and SoIA.ictlon of Microorganisms, ~loscow, and the Protein Research inotituLe at Punhchirto (33). Previous arLiClea by V. 1. Permagocov have been issued from the former institute. No previous facility assocIation cculd oe located for V. D. Vasil'yovo but it to likely thnt ho reprosents thf. latter -institutc. This article probably reprerentd some joint v.)rk bwtv-een the Z.= urce of reference, given below ir. a cempleta "I"ing (U) As a ready so of personalities identified with the Protein Restarch Institute to the present V time: All' - wor PtliWtn (ZiirgAdze, Yu. M.. Rzshevskaya, Ye. P. Fodorov,11. A- Scrdyuk. 1. X. YInkal',hreyn, A, V, 1~1.rnov, N. 1, Gllnskaya~-q. V. Spirin,.A. S. Lavrilovs, L. P. Tiktopulo, Ye. 1.  -1f3; 0?Z 0"CL A SSI p I ED P:ucEs5 r :T ITLE-UN THE CIOINSIA:ICY OF THE -HY i " (~ . .415: DATE-13NOV70 CPHOBIC NUCLE'%'.)S Vkl1Lfj9L- IN ~GLECULES OF i-I.YOGLOMNS AND HEMICJGLOBINS -U- PT I rSY.14, a B. COUNTRY "IF INFO-USSR -40LEIKULYAkNAY 31OLOGIY4, A970, VOL A , NR 3 ,PP 37 2-33 2 i)AT.E - P U5 LISHED ------- 70 5k;3JECT AREAS-3 I UL06 I CAL AND MED I CAL . SC I ENCES --M - I TOPIC TAjS M M 0 A C I -D HEMOGLOBIN, MUSCLE PHYSIOLOGY .`C-NT'JL ;,!APKflNG--N0 PESTRICTIOINS ::PROXY R-'L'~---L/FkA;-I;r*.---30k)5/Oft35 '~T E: P CIRC ACCESSION N0--AP013Z659 C L S IT I rl  L -)CLASSIFIED .Z/3 022 PRG C 13C A'ZICESSION -N0--AIlJ132659 A3STRACT/"XTRACT--(U) GP-0- A6 T RACT AM P10 ACID kt-pLtlCE'!C-.'~TS t, C A M3LECUL (~S OF '-'lY-0Gk_Gt3 P4S A ~NiD HC-,llQGL0B -f ~iS OF 0 1 FF ERL.il f !)R, I GE \11 I I AVE 3 E EN 1 31 S T .IGATED. 31 JF 34 SITES ~XCItiPIL-D -3Y:lvk]NPQLe0. AMP4,j ACID R E S I U-IJ E S IA ALL 52 PRIMAKY~ STRUCTURES KNOAN Ar I>RE~,;NT FO~llli A U111FIED HY3--,ijPli0t3lC Z0%E IHYDkOPH03IC NUCLEUS OF THE GLOBULIE).! THe STATI$TICAL A-NALY~15 OF THE: A,'flN0 ACID IREPLACEMIENTS IN THIS ~IVDRGPHUBIC ~.lJCLEL)_--- HAS SHL)rlC THAT THEY JDCCU;Z PJ SUCH A MA',i\JER TFiAT THE ~JJCLEUS VOLUM-P APP,~OXI;AATELY C(1~4STANT: THt V~ILU;4_` il-;ISPERSION DOES N:14T E"X:_-EFD 230 A%,'Gsn)c..,i pmmE6 41CH TO THE. MEAN SQUARE' 6F 15 PLACE. ANGSTROM P.~IMIE31 PER BITE [N W11CH AM[ND ACID REPLACEmLo's rAKE IT IS P4l0TEE'.-lGm'THY THAT AT CONIPLFTELY HlAi-,J[JM SUBS TIlUTji:lljS [JF 'UNIE: ;,l*)%d0LAR I -C 01 OTHER THE V(,,!J',Ir, (JPo-PEISI~GlN OF G!,il: SITE 10"LIL0 BE ~AIEOO AM liN I AC P) Ff R ANC - - I I - k 1. ANISS rRfJ-A PR I ME6 ( Tiflr: M~AN SQUA-NE ~ i~EVI [A T I ~]N. 'I INJS ift,3 Atil->S R D"I PR Pii- 3 -1 P 0 S S 113 LE 1*0 I-STA;SLIS-i THE THE, FJIJIi~',i SlATIS'ilC4L Af4j,LYSIS MAKL_~ IT IS fHE CUNSTAI~CY 01` THr:_ `iYDRUPHOBIC EXISTENCi_ OF TWO ;4ECHA:41S~"l P,_ L:, NUCLEUS VOLUME. 0!4 THE ONE HAND, THEI~E IS A C&I,-JilIN ;-STRICTIUN OF V-0LUMES) GF THE SIDI: GR"JIJPS WHICI-I CAN DCC0PY:FVl:_kY GIVEJ.-I SlIE: 1~,l THE ',PJf__LEmU'j t eW;D, (~;l THF OTHFR HAND, THE NYOPCIIH ~j 3 1 C j',l U C L EU S VOLUME r AS A WHOLE , W) riiE VOL'WIES . OF -'l.'LJCLFUS 5 1 TE S C101AMSED OF THREE - 11 ROUPS SIDE GkOUPS EACH, ARE NICkE Ctj~ STA~NT THAN THE VOLUMES OF': THE: SIDE Gi CCCUPYPIG EVERY lN0fVl.0UAL SITE, 1. E, r THE AMINO ACID' REPLACE4ENTS IN HYDROPHOBIC NUCLEI 00 LOCALLY C(jAP_z,,~rS.ATE EACH OTHER. IJ Nr_ L iS 53 1F fflj~w h ittfl-I jil j_mFw_ iiiffli-cm i 51 i i i-li -ii ii -xia ii-I i ii; mmil -o-, ~ i ~,,, _~-au'm "NMI I di I in IN  .... . . ..... ...... ...... ~3/3- 022 UNCLASSIFIFf) PROCESSING DATE-13NOV70 CIRC A-CC~E S S ION i,4L.--APQ132659 ABSTRACT/EXTRACT-INASilUCH AS THE V'jLUMES GF NUNPOLAR SIDF RACMCALS Af1-,E PROPORNG"iAL TO FREE ENENGIES OF- TRANSFER FROM. THE~ORGAN[C SOLVENT ..(ETHAP40L) TO WATER AT THE SAME TIME FOR 'THE CONSTAINXY OF THL VOLUMES OF NU C LE I M E A N SALSO A COiNSITANCY OF 'FREE ENERGY FOR STA31L IIING THE NATIVE SPATIAL 5TRUCTUiE (~-F ~'7L(33INS t3Y HYDROPHOBIC INTERACTIONS. -FACILITY; INSTITUT~ PROTEIN kESEARCH A C A D Eli Y Q OF SCIENCESo USSR, PUS TC ii I NO- ON-01K.A. L A S`~  112 020 UNCL AS S,I F I EW. PROCESSING DATE--18SEP70 TfoTLE--lNTRAMOLECULAR SALT BONDS IN SYNTHETIC POLYAMPHOLYTE; A COPOLYMER "-.,:OF 2 METHYL 5 VINYLPYRIDINE AND METHACRYLIC ACID -U- AUTHOR-(04)-KlPPERi A.1.9 OMITRENKOv L.V.v PTITSy,,N4,,,Ap,I1., SOGOMONYANfSt ZH.S9 OF INFO--USSR .-,,~SOURCE--MOLEKULYARNAYA BIOLOGIYAY 1970, VOL (t, NR 2t PP 175-183 GATE PUBLfSHEO ------- 70 S UBJ EC TAREAS--CHEMISTRY JOPIC TAGS--COPOLYMERI i PYRIDINEt METHACRULIC ACIDt POTE14TIOMETRIC TITRATIONt SPECTROPHOTOMFTRIC ANALYSIst INTRAMOLHULAR MECHANICS, CHEMICAL BONDINGt PROTEIN CID11TROL 14ARKING--NO RESTRICTIONS tUMENT CLASS--ONCLASSIFIE0 -.00 .:PROXY REEL/FRAME--1984/1716 STEP NO--UR/0463/70/00!t/()02/0175/0183 JRC ACCESSION NO--AP0100313 MUM, MO. A ff 1w, -11, MW m MW I Rig -9 tl -  2112 020 UNCLASSIFIED PROCESSING DATE--18SEP70 CfRC ACCESSION t-10--AP0100313 `ABSTRAC,T/EXTRACT--(U) GP-0- ABSTRACT. THE INVESTIGATION WAS CARRIES OUT 'OF ELECTROCHEMICAL ANO CONFORMATfONAL PROPERTIES nF A WATER SOLU13LE COPOLYI-MER OF 2 METHYL 5 VINYLPYRIOTNE AND METHACRYL[C AC,10 (50:50) BY POTENTIOMETR[C TITIRATION, SPEC TROPHOTOMETR IC TITPATIO,',, (FROM ULTRAVIOLET AND INFRARED.SPECTRA) AND BY VISCOMETRY. IT WAS SHOWN THAT IN THE PH RANGE FROM SIMILAR 2 TO SIMILAR TO 7 AN INTRAMOLECULAR SALT BUNG WAS FORMED OF THE TYPE NH PRIME PLUS COO WITHOUT COUNTER IONS FROM THE SOLUTION. ABOUT 30PERCENT OF GROUPS OF-EACH TYPE WAS INVOLVED IN THE SALT BONDS. THE GCCURRENCE OF INTRAMOLECULAR FORCES.OF ELECTROSTATIC ATTRACTION LEADS TO A MORE COMPACT CONFORMATION OF THE MACROMOLECULE AS COMPARED WITH THAT OF THE GAUSSIAN COILS. THE PROPERTIES AND BEHAVIOUR ..OF THE AMPHOLYTE-. PERMITS TO CONS10E.R. 1,T AS. AN APPROXEMATED PROTI~IN !MODEL. 11 fT(- 1 -a i~ iz T, 1_- T-17 1-1  U= ru/ .5L17.963+339.19 " S Y-V0 US' M Prote-Ln Institute, Academy of Sci-nc Vol, "Physical F rinci p! t-s Governing the S-%lf-Mrganizaricon of P-1-otein Chains" oscow, Uspokhi Sovromennoy 2iolo-y-ii, No 1, 1970, pp 26-48 Abstract: 7,;~:isting information on tho forces at w.-Ir in zo ton molecules, and on tIr ways in which. th~r, scqLience of on-ina i-xids in the pnlyprptide cha--In uses these forces to co-de thl- sDatiill. Structurl~. of the proteirt cha'~fn, is pr,-sented. The :survey o.,mbraces Uie tion of monomer units of the proteir, chain, ralpha-att'(f. b,~ta- strucrures a L-)bijlar proteins, codivo-r of, globular proteins, the compact structure f the spatial structu~-e of p-lolbular prateins, coding o f 0 of the spiral portions, and the mechanism oZ- seLf-orgaaization:of protein molecules.  .1/2 Oil UN C L S S I F I E P~ 1?,~ ESSIM, JAT --IIDEC70 T1TLE--iGN-LINE,'km WAVES L~ SfE'Ut~:~ ANU NE SPI,.,*%L S1i,,UCTU.M- UF 6 *LAX I L S. -U- 'T RY LU;~i OF I IN P0--U S SR C /-HUM\AL# VOL. 47, NO. 3v 1970, P. 499-502 GA EP Ub L I SH E 7 0 S,USj ECT Af--.E A S-AS T F C NOM Y, A S T RCP HY 5 1 CS TGPIC; TAGS--GALAXY, MODEL WiTROL M4RKING-NO RESTRICTIUNS t)CCUME%T CLASS-UNCLASSIFIED Y FICHE NG--FD7,)Yr.)(j5013/1)04 'STEP CIPC ACCESSION W"'--APU'[4(dJ93  212 UNCLASSI F LED CIRC ACCESSIC," A O`ST,'%A(, IVEX TkAC''T--(U) Ai~ T ksl GT 0 1 S C I J S S I ON, (D i: fl-iE FIr E '~j C F Ci NONLMEAP. STELLAR 0-LtN-5-.[IY ii-4AVE.Sr 1--REE 6F DIST6RTICjil 5 Y1, f FF LREN T RO T A r i (-j,% , i t, S E L FV I r A T 1-3 'a N G L CCOMP 1-11,4c'NT P) A SMJ., (: YL [Nj~-, SHOIAN Tti,~T SJ~IALL AMPtATOL)c COVES le,ijGSf-. , J-F LOGARLTHPIC SPIRAL CAN EXIST IA SUCH A 13ALACTIC M(I)OLL r)l"-'-L 4AVI-S BE RPSPOIJ'SIBL~ FOR THE SPIRAL -STRUCTURES~ OBSEPV~:D IN 6tt.AXIES ;ilri-i SU; SYSTEMS. OEVELLPED SPi-,LRICAL. FACILITY. A KAOE:.,l I I A NAUK -SKOI SSki 1~ YU S SSR. NS[ITUT ASTROFIM-2, 1) till, M 6 E U,,`4 L L A IBM MINOMIN I i M05  us 9 R. LIDC- 6-32-95 PTIMMIA N. V., and BRAGIVA, V. V. f "Tbe Deteraination of Residual Imounts of Neorone, GzIechrone e-nd Gardona in Apples" Trudy Vtorogo Vaesoyuznogo soveshchaniya po Issledovani-ju ozt-:~itkov pestuitsidav i profilaktike za,,-r,,zaneniya i=i procIuktov,pit-ania. i vno-shney sredy (WorIvs of the Second All-Union Conference on the Study of Pesticide Residues and the Preventior, of ContzuAination of Foc/I Prod-uzczu, Fodders and the Eyivixon- ment by Them), Tallinn, 19?1, yp 194-196 (from Refet-ativiivy Zhtxnal -- RhAmiya, No 10 (11), 1972, Abstract No IOR510 by T. A. BelyaZrova) TMISlationi To 100-ZOO g Of crusbeti apples is added 300 ... 11-00 ml patrolemu ethexi then 14201,, evaporated and pesticides are identif.1-od using thin-layor Chromatographyt neorone on sil-tca gel KCK-2 bantonito on Al 0:., j bentlonl te or t~1293; gaxdona on beentonito D:r Al 0,1 galecbronr; on ALIO Fin .41 0 dhroma- 2 0" 3' 2 3 tOtography is cor-glucied in a systt-m of n-hcrare-acetone 5tI (for gzJechrone, 1910:.5 is- better). Development is conductoa vitb P- meagent containizir a Solultion of 0.5 U AgNtO in 5 ml watery 5 ml of Ln aqueous zobit;oll OIP 3 0 .3 mil hydral-enparorlde and - 90 nil vater (%tovO. v(-, 100 nl L  fifflffmMmmmusim IN WHANUM 20NOV 7 0 I/Z -036 UINC L AS S I F I ED- PRUCESSINt$ L)ArE- TJTLE--STt--UCTUHL- OF THE PGLYPiHi O~ 3 3 ~r -LIFLUOR0, It 2,EVM-~P.WPANE -U" P I.V., KAZANSKLY7 K05,t VTlT5YjjA#,-A,-*-l KUSHPIEREV, CCUNTRY UF INFC-USSR 0, 12(4) 622-8' SbURC E-MUKUMUL SULW:i., SER. A 1,97 DATE PUbL I ShE S U Gj.E C TARZA 5-CHEll I S TRY TOPIC TAIGS--,`~LLLCULAH EPOXY Cil.JIMPGUND, f-LU0A,lNAl*UA ORGANIC CUMPLUND, PROPANE, X kAY ANALYSIS, IR SREcj;Mll, Ck'YSTAL LATTICE SfRULTURL -f-WIT11CL lf-~AkKING--NIG RESTRICTIONS 0 0 CiJ M E At T C, 1. ii S SL AS I F f L i) PRUXY IM ./,I kAfil.--30061L~8.3 STEll iN0---UV045'J/ 10161.210641, 2 2 0 f3 Z!j CIRC UNf,LASS I FfED  4/2 O-loo UNCLASS IF I FO PROCESS)ttiil'i DATE--20N'OV7G CIRC ACCESSIGii NO-AP01325057 'TkACT. ;X RAY I)s%]'A li\jCICiOEI~ THAT A RACT/0.1RACT-N) GP-`- -c. PCL Y (3,31, 3 , Tk I F LUORO , 1 2 L-XY il POPAI'l E- ) (I ) HAO A RHOW',IC LATTICE '11TH THE PAf-,A.;,.i,rERS: AtPlif, f.:--eUAUS 11,42 PLUS OR 4-11-YUS 0,01A.\t'-TRo:-t; 6 6 .2 6 P L li S 0 F h I PlU S 0 . G L A NG' S T RU P, E QU A L 5 41 . 2) 6 r) L U S ON I il.: U S 0 . 0 L ANGSTR6M; ANO Q EQUALS THE IR SPECTRA UF I AWO THLIR RELAric),7~, i io POLYNL-k STRUCTURE 6ERE DISCUSSED. FACILITY! MSF. KrilM, FIZ., MUS C Ovi, ussf~ ONC LA SS I F I L 0  UL9 UNCLASSIFIED PAOCESSING DATE--30OCT70 TITLE--EXPERIENCE WITH CLINICAL USE OF VISRAMYCIN -U- A6TH0R-(05)-MIKHNEV, A.L., PTUKHA, R.M.I'TYDELSKAYAt I.L., KRYLOVA, YAKOVENKOt S.N. CCUNTRY-C;F INFO--LSSR ~SGURCE--VRAChEl!NOYE DELGI 1970, NR 2, PP 12-16 DATE PLbLISHED--70 _t SUBJECT AREAS-GIOLCGICAL ANG MEDICAL SCIENCES .:-- TOPIC TAGS-BLOOD SERUM, PROTEINj TETRACYCLINE* INFECTIOUS DISEASE, SELECTIVE CRUG EFFECT ~'~."'~ZONTRCIL MARKING--NO RESTRICTIONS DGICUMENT. CLAS S-UN%' LASS IF IED REEL/Fr-'%AME--1985/0454 N.M., STEP NO--UR/0475170/000/002/0012/0016 CIRC ACCESSICN NO--AP0100932 UNCLASSHIED  --30OCT7C 212 019 UNCLA;SSIFIED Pi,tOCESSING DATE CIRC ACCESSIGN NG--AP0100932 A&STRACT/EXTRACT--(U) GP-0- ABSTRACT. VIBRAMYCIN (DOXICYCLIN) EXERTS A CHARACTERISTIC OF TETRACYCLINS ACTIGN SPECTRUM BUY IT PROVED MORE EFFICIENT THAN ITS STRUCTURAL H61MOLOGUES. TCjLi'RA",C;E OF THE DRUG WAS GOOD AND CNLY TWO PATIENTS DEVELQPED V.OMIrING- VISRAAVCIN PROVED HIGHLY EFFICIENT IN.THE TREATMENT OF ACUTE INFECTIOUS DISEASES. THE CONCENTRATION OF DOXICYCLIN REACHES 2.55-1.72 GAMMA-ML OF BLOOD SERUM FOLLOWING INTAKE OF 200 MG. WHICH 15 SIGNIFICANTLY HIGHER THAN WITH OTHER TETRACYCLINS. FURTHER INTAKE PER 100 MG KEEPS ANTIBACTERIAL CONCENTRATION ON A HIGH LEVEL. DATA ON THE BINDI;iG OF DOXICYCLINE BY BLOCD SERUM PROTEINS ARE ONLY PRELIMINARY AND CONTROVERSIAL AND NEED FURTHl:-R STUDY. UNCLASSIFIED  T 14 e4j -Sot, of ki co -C t, 8 D ~17 Al Y IL if 9s 71  ----------- --- UNCLASSI'FIE0 ~?F PfZGCFSSlNG 04TE--17JUL70 "JITLE-ADSCMIC,14 OF CARBC1% MCNOXIDE C'N' T E ACE OF A TUNGSTEN SINGLE CRYSTAL PARTIALLY FILLED WITH THGRILP -U- 4LJTH0R-~-AGEYKl%t V 5 1 PT-bwjiiVTSR rY P C L 0 Z (3 V8P ~.q-~CU,NTRY OF US S R S.ttJ.R(; E- F I Z7VFf?C. TELA 1970 12(l), 221-6 DAT E PUBL IShEC-----7C slJ JE C TAREAS--Pl-YS ICS T0.PJ-C TtGS-GAS ABSCRPTION, C~'Ro~ON PONCXIDE, Sll-iGLE CRYSTAL PRCPERTY, METAL SU~FACE IMPREGNATIONt THORIUM.9 WORK FUNCTION UIXTROL. 14AFKINC-hC PESTRICTIONS -OCCUMENT CLASS-UNCLASSfFIED ~PRCXY REEL/FRAME-11379/1998 STEP NC--UPiCIBI/70/012/001/0221/0226 4111RC ACCESSICN NC--APCC48276 Ui",'C L A S S I F I E D ---------- ------------ ------  ef. Code: V e) 1001 104165k Adsorption of cartoon monoxide on Cie surface of a tungsten single crystal partially filled with thori A- 'k Wn. ' mo in, 1% S Plushinsb-ii, Yt - Q , INOKO-1-, B, P. (Injt.-Fiz. 'Kick. -UMB) Fic. Trerd. Tela 1970,12(l), Th~ effect of partially filling a W surface %Oith Th on the adsqrption of CO was investigated. A large effect,w2s bbsd- With a very. small amt. of Th on the W surface. In the mechanism df adsoibtion capacity suppresusion of the W surfue, the dominant role is played by the charge state of the Th atoms, 'The charge of tb~ ad. sorbing atoms sharply~ decreaseswith increasing degree of mver- age. Results obtained for W faces with difffxent w6kk functions correlate with the expected dependence of the charge stage of adsorbed atoms on the initial work function. A. Libackvi J r,+ "h~004527C Abstractiag-Service-, CHEMICAL'ABST..  r USSR UDC 523.165 GINZBURG, V. L. PTUSKINV S., and TsYTOVIch, V. N., Physical Institute imeni P. N. Lebedev, Academy of Sciences of the USSR nOn the Role of Plasma Effects in the Propagation and I8otropization of Cosmic Rays in the G_Qla_V" Moscow, Izvestiya Akademii Nauk SSSR, Vol 37, No 6, 1973, pp 11-50-1154 Abstract: This work is based on IFIRT Preprint No 161, 1972, by the saw- authors, which contains more detailed calculations and discussion. The present article communteates only some basic results of this work. The basic purpose of -this study is to consider the waves developed in the movement of charged particles; the interaction of those,waves with the particles; the effects of other waves, externally generated; and the inter~ctiorxs amone the -waves. The overall re--ult is to introduce consideration of plasma effects in the standard diffusion model of cosmic radiation. Mi -stlers, Three basic.types of waves are considered. magnetohydrodyna c, whi and Lang.-nuir waves. Mhen cosmic rays move with an average velocity exceeding the phase velocity of the waves, instabilities arise and there is a I'maser" expansion of the oscillation due to anisotropy in the angular distribution function of cosmic rays. 113  USSR GINZBURG, V. L., et al., Izvestiya Akkademii Nauk- SSSR, Vol 37, No 6, 1973, pp, 1150-1154 To develop waves in interstellar plasma, the increment must exceed the decrement due to damping. Damping of MID waves is due to collisions between ions and neutral particles, while the other two types are damped by electron- ion collisions. Formulas are given in the article for calculating the change in direction of particles subject to these turbulent waves. These results can be used, in turn, to make an approximate determination of the coefficient of diffusion. Preliritnary evaluations show that nonlinear processes cannot be ignored in the relaxation of the an-isotropic distribution of cosmic rays of a single order. Furt,;her, there is still no rigorous'.theory of' MID turbulence, particularly in a collision plasma. However, analysis indicates, that whist- lers and Langmuir waves are not likely to arise when the an.tsotropy of the radiation is low, so that 141D waves must be most significant in reducing low anisotropy, except for cases in which. whistlers and Langmuir waves may develop due to external sources. On the other hand, analysis shows that the spectrum that is attained can- not be established solely by effects due to the cosmic rays Jhemselves, and that.external sources of sufficient power to provide the necessary NED waves 2/3 28  USSR GINZBTJRG, V. L. , et al., Izvestiya Akademil Nauk SSSIZ, 1101 37, No 6, pp 1150-1154 are not available. Other mechanisms, such as circulation in mag"etic fieldn or scattering in magnetic anomalies, must be assumed. A theoretical study of MD turbulence in collision plasmas and the possibility of shock wave formation Would be valuable. There may also be new types of waves in a mixture of elativistic and nonrelativistic gases. r 313 M" TIME - ~jz jta! . . . . ......... A. iN, ............. ki-  USSR UDC 536.24:536.42 "Heat Exchange Between a Rarefied Air Flow and a Porcus Body Supplied Witi) Water" V sb. Teplo- i massopere-nos. T. 1.- Ch. 3 (Heat and RaSS Tra-116fer. V01. 1. Part 3 -- Collec~,*on of Works), Minsk, 1972, pp 209-221 (from Pz-h-'-e3-,han-'Ika, No 8, Aug 72, Abstract No BB869) Translation: m. experimental study of heat exchange at r-mall velocities (u- < 4 n/sec) be-tn-ieen the flow of a rarefied gas (p.. ^, 2 Tm-fl Fg) and a vorous medium flcmed by glacs spheres of dianeter -1.5 na- (por-csity of the medim 37%) is descr-,Ibed. The porauc medium was p1aced .n the wall at the distance xO = 30 cm fron the begintainIg of th(!t d-r-arjk bound--v i !aye--. The dimensions of- the porous bcxly are the 1`011cr.-iing: -lencrt-b 20.S cm, width 6.8 cm, depth 8.2 cm, surface with nylon coating of tbic-,Ir-rierm 0.1 vnm. Experimental relationships obtairic-d for the reduced local numbez,,, fur the surface of the prwom. saimqilr~ ard the The experim-ental restIlIn are aija1yzed. Thci exirtemce of 1-m (p-41m,1- - t-O.. C va ration depth opt was established at i4hich the hea-t i,-, a max--Mmi iufflmfilml; .01 fig  ---------- USSR PUASSON, G., Teplo- 1 massoDerenos. T. Ch. 3, Mins', 1972, pp 209-221 1here occurs along the length a rapid d ecrease in heat transfer up to the value of heat exchange on the lsothermal~surface, The theort y of A. V. Lykov iS supported up to values of ~Opt, 'The experLment does not cor- respond to this theory for IP > A.,I. Bunimofich. opt*  Acc. Nr Abstractips S?ce Ref. Code *9PC048836 ST 'L? I _7 CMUCAL AB 90905n Initiating action of some unsaturated peroxides dur- r ing styrene polymerization in bulk. Pwh' A~'*A Pohhmur- "- mur ~,-,J. PM -iTN-- skaya, M, Yurzhenka T L; Rrut Inzt., L% SR) . -W-Sp- t. - Ov US r 11 67 2t In ~V~so;?ornoi. Soedin., aer. 4 24-S-51 (Ruisl. The initiating action of several uns:n1d. pere.Mers during bulk polymn. of styrene wa~ compared with that of their satd. analogs. Peresters studiH'iwere tert-Bu peracrylate (1), tert-Bu erpropionate, t1l), tert-Bu permethacrylace ter(-Bu p perisobutyrate, vert-Bu percrotonatf, 1111). and 2-(vinyjethynyD-2- propyl h~droperoxide'(IW The initiating action wa~ detd, from the rate of polymn. o' styrene dilatometers at initiator cofien. ~0.00565,0.0281.aiidO.0,5:)6mole/l.ahd-,()-90'. Thed.n. varied lin- early with time (at 20-3% conversion The unsatd. peresters had greater initiating action than their sad. analogs. Thui,, after 2 hr the conversion was 1-3.3% with I compared wit h 11.0% with 11. The initiating action,of IV was intermediate beiween that off and III, The unsatd. peresters had lower activition energies (14-5-15 kcal/ mole) than their satd. analogs (19.0-2", .2 kcal/mole), Themol.,vL of the. polystyrenes obtained was inversely proprtionM to the perester (both satd. and unsitd.) conqn-, apparently du~ to inten- sification of breaking of the growing polymer chains. The unsatd. peresters initiated. polyn3n. of vinvi monomers at comparatively low temps. and gave branched polymers. DBJR REEL/FRAM 1960003 r  USSR UDC 612-622-3+612-821.6 PuchINSKAYA, L. M., Institute of Higher Nervous Activity and Neurophysiology, Academy of Sciences USSR, Moscow "Evoked Potentials and Perceotion of Stimuli Characteristics at Different Attention Levels in Children and Adolescents" MOSCOWS Murnal Vysshey Nervnoy Deyatellnosti, Vol 21, No 3, MaY/Jun 73, pp 640-642 Abstract: A study was made of the average evoked potentials (A-.,P) in children 7-12 years of age to light stimuli of differing intensity, an(I of their cor- relation to perception of -'.,he diffeminces at various atV=tion levels. 111, was found that the AEP in children whose attention had not specifically been directed to differences in si~gial intensity waa characterized by a high aegree of similarity in potentials from th,!i occipital) parietal, centiul, and post- frontal areas. The potentials were simple; component forzation -was poor. When the children were asked to vatch for differences in signal intensity, the AEP in most cortical areas became nore complex in response to both light intensities. Ifew components appeared, and changes occurred in arTlitude rela- tions between individual components.  IMWOMM-7- Ace. Nr. j AP0029085 Re f . Code: UR 0246 PRIMARY SOURCE: Zhurnal Nevrop4-~ologii i Pailthiatrii, 1970 Vol 70, Nr 1 p P CHANGES OF BIOELECTRICAL BRAIN ACTIVITY IN TYPICAL NEURALGIA OF THE TRIGEMINAL NERVE AND FACIAL SYMPATRAMIA _chinskaya G,; The authors studied the bleelectrical .brain activity in 105 patients With different pain a ve, syndromes of the face (66 with ipsilateral, 5 with bilateral typical iieuralg; of the V ner 4 with postherpetical neuralgia, 4 with neuralpla of the glosiophar' ' nerve and 25 with f&cial sympathalgia). In typical neuralgia the EEG shows signs of it!,r1TtLation, desynchroniza- flon and discharges of paroxysmal bilateral activity. These changes were especially stressed in registrating the blopotentiali during or proximately following the attack of neuralgia. The authors presume that these changes may indicate to the involvern,~nt of the.- stem reticular f,qrmation In the complex niechanisins of the pathogenesis of aL typical neural,gia of the trige- minal nerve.  USSR VAGIN, V. N., PUCHIN'YAN, V. K. "Study of Cooperative Solutions in the Game 'The Prisoner, Dilemma" 'Problemy Bioniki [Problems of Bionics Collection of Works], Moscow, Nauka Press, 1973., pp 361-366 "Translated from Referativnyy Zhurnal Kiber- netika, No 6. 1973, Abstract No 6V488, by, the authors), Translation: A game of two persons with two strategies and nonzero sun is studied. The possibilities of development of cooperative solutions in the game of two stochastic automata modeled.by computer is studied.- 59  USSPI UDC 681. 3 PI.IUIIN-YAN, V..__~, SHEIN, P. D., SHTEMN, M. Ye. "Problem of Optimal Division of a Graph and Arrangement oC Digital Computer C, Devices" Sistemy Raspredeleniya Resurscv na Grafakh [Systems for DIstribution of Resources on Graphs -- Collection of Works] , Moscow, Acad. Sci. USSR Computer Center, 1970, pp 118-126, (Translated froul Referativnyy Zhurnal, Kibernetika-, No 6, 1971, 'Abstract No 6 V574 by 0. Belkin). Translation: One problem of modula~r planning of digital computers is studied. A circuit is to be represented, fixed on a Structural level by a set of modules of the next level so that the Titimber of connections between the inodules is nini- mal. The plan of the device is fixed by an equivalent graph, the points of which correspond to modules in the in---tial circuit. I'he lizies OF the graph are identified with the connections between modules. Further, 'the problem of divi- sion of the system is reduced to the problem of division of Its equivalent graph. The algorithm for division consists of organization of an ordered seiection of all possible sets o.' line nLnbers, i.e. all p ssible divisions, satisfying cer- 0 tain conditions. The division satisfying these cDnditions is considcred opti- mali Ilic algorithm suggested was prognirmed on the M-220 digital computer. I'lle time Of solution of the problem remains within permissible Jimits with 20-30 Points on the graph. HIM  USSR UDC 681.3(07) KSENOFONTOV, 1. S., UMBERG, V. M.. ""qdm"N ZHUKOVYE'MEL'YA2NOV, 0. D., and YAKOVLEV, K. A. Blektronnyye Tsifrovyye Vychislitel'nyye Mashiny (Dopushcheno Ministerstvom Vysshego i Srednego Spetsial'nogo Obrazovaniya SSSR v Kachestve Uchebnogo Posobiya dlya Tekhnikumov) (Electronic Digital Computers (Authorized by the USSR Ministry of Higher and Secondary-Specialized Education as a Text- book for Tekh-aikums]), Moscow, "Mashinastroyeniye," 1970, pp 369-371 Translation: Table of Contents Page 3 Foreword Chapter 1. Arithmetic and Logical Fundamentals 5 .1.1 Number Systems for Digital:.Computers 5 1.2 Forms of Number Representation in Digital Computers 8 1.3 Coding Negative Numbers in Digital computers 14 1.4 Addition and subtraction of Fixed-!-Point Numbers 19 1.5 Addition (Subtraction). of Floating-Point Numbers 28 1.6 Algebra of Logic. The Concept of a Proposition and Its Importance for Truth 34 1/8  USSR KSENOFONTOV,, I. S., et al., Elektronnyye Tsifrovyye VycIiisliteI'nyye Mashiny ~(Dopushcheno Ministerstvom Vysshego i Srednego Spetsial'nogo Obrazovaniya SSSR v Kachestve Uchebnogo Posobiya d1ya Tekhnikumov) (Electronic Digital computers (Authorized by the USSR Ministry 'of Higher and Secondary Special- ized Education as a Textbook for Tekhnikums]), Moscow, "Ifashinostroyeniye," 1970, pp 369-371 1.7 The Concept of a Switching or Boolean Function. Basic Boolean Functions 36 1.8 Axioms of Algebraic Logic 42 1.9 Disjunctive and Conjunctive Normal Forms of Representation of Boolean Functions 43 Chapter 2. Elements of a Digital Computer 45 2.1 Representation of Characters in Electronic Digital computers and Classification of Elements 45 2.2 Passive Logical Elements 48 2.3 Logical Elements Made From Transistors 58 2.4 Logical Elements Made From Vacuum Tubes 63 2.5 A.)[agnetic Core as a Binary Cell 66 2.6 Logic Circuits Made From Core-Diode and Core- Transistor Cells 70 2/8 55  USSR KSENOFONTOV, 1. S., et al., Elektronnyye Tsifrovyye Vychislitel'nyye Mashiny (Dopushcheno Ministerstvom Vysshego i Srednego Spetsial'nogo Obrazovaniya SSSR v Kache-stva Uchebuago Posobiya d1ya Tekhnikum-ov) (Electronic Digital Computers (Authorized by the USSR Ministry of Higher and Secondary Special- ized Education as a Textbook- for Tek-hnikums]), Moscow, Mashinostr oyenive," 1970, pp 369-371 2.7 Elements Which are Used in Number Representation in Digital Computers 83 2.8 Magnetic Parametric Elements 89 2.9 Transfluxors 91 2.10 Biaxes (biaksyl 95 2.11 Twiators 96 2.12 Thin-Pilm Magnetic Elements 97 2.13 Elements of Digital Computers Made From Superconductors 98 2.14 Pullse Shapers and Amplifying Elements of Digital Computers 100 2.15 Systems of Unified Logic Elements 105 Chapter 3. Digital Computer Modult-- 106  'USSR XSENOFONTOV, I. S., et al., Elektronnyye Tsifrovyye Vychislitel'nyye Mashiny (Dopushcheno Ministerstvom Vvssheco i Srednego Spetsial'nogo Obrazovaniya SSSR v Kachestve Uchebnogo Posobiya dlyaTekhnikumov) (Electronic Digital Computers (Authorized by the USSR Ministry of Higher and Secondary Special- ized-Education as a Textbook for Tekhnikumsl), Moscow, '.Mashinostroyeniye," 1970, pp,369-371 3.1 Registers 106 3.2 Decoders (Selective Circuits) 110 3.3 Counters 117 3.4 Accumulators 125 Chapter 4. General Principles of the Construction of Electromic Digital Computers 133 4.1 Organizational Elements of Digital Computers 133 4.2 Structure and General OperationaIPrinciple of Digital Computers 140 4.3 A: System of Modular Computer Facilities 145 4.4 Classification.of Digital Computers 149 Cha,)ter 5. Arithmetic Units of Digital Computers 154 4/8 56  USSR KSENOFONTOV, 1. S., et al., Elektronnyye Tsifrovyye Vychislitel'ny ye I'lashiny (Dopushch eno Ministerstvom Vysshego i Srednego Spetsial'nogo Obraz ovaniya SSSR v Kachestve Uchebnogo Posobiya dlya Tekhnikumov) (Electronic Digital Computers [Authorized by the USSR Ministry of Higher and Secondary Special- ized Educ ation as a Textbook for Tekhnikums]), Moscow, "Mashinostr oyeniye," 1970, pp 369-371 5.1 Addition and Subtraction in an Arithmetic Unit 155 5.2 Multiplication in a Binary Number System 169 5.3 Division in a Binary Number Sysfem 184 5.4 Extraction of Square Roots 202 Chapter 6 . Memory Units of Digital Computers 204 6.1 Basic Concepts, Characteristics,iClassification 204 6.2 Memory Units Made From Ultrasonic Delay Lines 207 6.3 Memory Units Made From Cathode-Ray. Tubes 212 6.4 Memory Units Made From Ferrite Toroidal Cores With Right-Angle Hysteresis Loops 217 6.5 Memory Units Made From Magnetic Tape, Drums, Diqks, and Magnetic Cards 241 6.6 Memory Units Constructed From Other Elements 264 5/8  USSR KSEHOPONT-OV, 1. S., et al., Elektronnyye Tsifrovyya Vychislitel'nyye Mashiny (Dopushcheno Ministerstvom Vysshego i Srednego Spetsial'nogo Obrazovaniya SSSR v Kachestve Uchebnogo Posobiya dlyd Tekhnikumov) (Electronic Digital Computers [Authorized by the USSR 'Ministry of Higher and Secondary Special- ized Education as a Textbook for Tekhnikums]), Hoscow, "Hashinostroyeniye," 1970, pp 369-371 Chapter 7. Input/Output Units of Digital Co Imputers 267 7.1 Devices for Preparing Information 268 7.2 Information-Input Devices 279 7.3 Tmformation-Output Devices 287 7.4 Analog-Digital and Digital-Analog-Converters 307 7.5 Data Transmission Systems 314 .Chapter 8. Control Units 316 8.1 Purpose and General Characteristics of Control Devices of Digital Computers 316 8.2 Addressing System, Choice of Addressing System 320 8.3 Modification of Addresses 329 8.4 Central Control Devices of DigitaL.Computers 331 618 57  USSR KSENOFONTOV, 1. S., et al., Elektronnyye ',",sifrovyye Vychislitel'nyye Mashiny (Dopushcheno Ministerstvom Vysshego i Srednego Spetsial'nogo Obrazovaniya SSSR v Xacbestve Uchebnogo Posobiya dlya Tekhnikumov) (Electronic Digital Computers (Authorized by the USSR blinistry.of Higher and Secondary Special- ized Education as a Textbook for Tekhaikums]), Moscow, "Mashinostroyeaiye," 1970, pp 369-371 Chapter 9. Fundamentals of Repair and Testing of Digital Computers 9.1 Apparatus for Testing and Preparing Radioelectronic. Elements for Work in a Computer. 343 9.2 'resting and Preparation of Digit.al Computer EIomeati for Work in the Machine 346 9.3 Organization of the Task of Monitoring the Operation of a Computer 348 Chapter 10. Power Systems of Digital Computers 352 10.1 Block Diagram of the Power System of a Digital Computer 352 10.2 Circuit Elements of the Power System of a DigitaL Computer 354 7/8  USSR KSENOFONTOV, I. S., et al., Elektronnyye Tsifrovyye Vychislite-l'nyye Ma-shiny (Dopushcheno Ministerstvom Vysshego i Srednego Spetsiallnogo Obrazovaniya SSSR v Kachestve Uchebnogo Posobiya dlya Tekhnikumov) (Electronic Digital Computers [Authorized by the USSR Ministry of Higher and Secondary Special- ized Education as a Textbook for Tekhn-4kllm Moscow, "]~~ashinostroyeniye," 1970, pp 369-371 Chapter 11. Fundamentals of Hicroelectroaics 357 Appendix. Basic Characteristics of Certain Domestic Digital Computers 364 Bibliography 368 58  171 USSL UK 681.325.3 yu.y!~. MIM0. A.M. wAiiihaotic Dffic*s for H$gh-FP9ihd Digital Conputars" M~otikh*okl," rojt,,v4 (English version above as PP A=Otatloua This book covers the goner& I theoretical as well am practical prob- less a the coutruttica of arlth2etle "'Cee 'or 4lGCtrOOiC digit4i CoaputerS. TbA IIQ:C effective allorWAS for OP*r4tI*- Of BrIthvetic devices of vrims "S Are dascribed and SaVhr,l now hardU~re des-1pme in the cozatructiou of aritUetic units art a=iyzed. Comparattva evaluAtionof 467gral version. of the arapal-ation of arithnotic, d4vicas &m pro,e&cod, The book is desizzed for a broad rrmge of engineers sod utitotific w.rkers involva4 In problems of plaimninj sud OW "icu of digital computers, as well as SrAduata stadents students is the hIghor levelu of the corresponding specialties. 4% tables; 63 f1jures; 48 biblio. We.  USSR UDC 681.3 GAVRILOV, Yu. V., "Arithmetic Devices for High-Speed Digital Computers" Arifmeticheskiye Ustroystva Bystrodeyst,;uyushchikh ETsVN1. (English Version Above] e Moscov, Sovetskoye Radio Press, 1970, 280 pag s (Translated from Referativnyy Zhurnal Kibernetika, No. 4, April, 197.1, Abstract No. 4 V625K), Translation: This book analyzes methods of performance of a3-ithmari.c operations in binary notation, as well as problems of their circuit realization. In the explanation of individual statements, arithmetic devices of specifJc computers are used as examples, Table of Contents: Chapter 1. Systems of Notation and Forms of Representation of Numbers; Chapter 2. Binary Adders; Chapter 3. Methods of Performing Multiplication in the Binary System of Notations; Chapter 4. Methods of Performing Division in the Binary System of Notations; Chapter S. Operations of Comparison of Codes in the Arithmetic Devices of Digkal Computers; ''Chapter 6. Operations of Shifting of Codes in the Arithuetic Device.  USSR UDC 681.325.5 GAVRILOV, Yu.V., Z&H.Q "Arithmetic Devices for High-Speed Digital Computers" Arifmeticheskiye Ustroystva. Bystrodeystvuyushchikh FTSWI (Euglish version above], Moscow, Sovetskoye Radio Press, 1970, 280 pp Annotation: This book covers the gertiral theoretical as well an practical prob- lems of the construction of arirlinetic devices for electronic dtgital computers. The most effective algorithms for oper4t!oa.of arithmetic devices of various :uction of types Are doscribed and several new hardware designs in the consci. arithmetic units are analyzed. Comparative evaluatiornof several versions of the organization of arithmetic devices are presented. The book is designed for a broad range of engineers and scientific workers involved in problems of planning a:ad operation of digital.computers, as well as graduate students and students in the higherIevels of the corresponding specialties. 45 tables; 83 figures; 48 biblio. refs,  USSR GAVRILOV, Yu. V., PUCHKO, A. N., Arifi-iieticheskive Ustroystya Bystrode)estvuYush - chikh ETSVIM, Moscow, Sovetskoye io Press, 1970, 280 pp. TABLE OF CONTENTS Foreword . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 CHAPTER 1. Systems of Notation and Forms of Representation of Numbers 1.1- Basic Concepts . . . . . . . .. . . . . . .. . ... . . . . . . 4 1.2. Selection of Basis for System of, Meption . . . . . . . . . . . . . . 9 1.3. Conversion of Bases . . . . . . . . . . . . . . 19 1.4. Representation of Negative Nwnbers . .. . . . . . . . . . . . . . . . . 24 I.S. Code with Negative Base . . . . . . . . . . . . . . . . . . . . . . . 34 1.6. Form of Represertation of Numbers in Digital Computer . . . . . . . . 40 CHAPTER 2. Binary Adders 2.1. Principle of Construction and Classification of Adders . . . . . . . . 55 2. 2. Logic of Construction of Single-Digit Adding Circuit~ 57 2.3. Specifics of ParaJlel Adders. 68 2.4. Increasing Speed of Operation of Parallel Adders . . . . . . . . . . . 85 2/4  USSR GAVRILOV, Yu. V., PLICHKO, A. N., Arifmeticheskiye Ustroystva Bystrodeystvuyush- chikh ETSVNI, Moscow, SolretSkoye radio Press, 1970, 280 CIJAFYrER 3. Methods of Performing Multiplication in Binary System of Notation 5.1. Basic Methods of Multiplication in Binary System of Notation . . . . . 3.2. Accelerated Multiplication by Decreasing Number of Components . . . . 133 3.3. Method of Accelerating Addition of qomponents in Performing Multiplication . . . . . . . . . . . . . . . . . . ... . . . . . . . 146 CFIAPTER 4. Methods of Performing Division in Binary System of Notation 4.1. Division with Restoration of Remainder . . . . . . . . . . . . . . . . 182 4.2. Division without Restoration of Remainde-- . . . . . 187 4.3. Division Using Reduction of Divisor to Unity . . . . . . . . . . . . . 218 cjiApTr-,R 5. Operations of Comparison of Codes in Arithmetic Devices of Dillital Computers S.I. Purpose and Forns of Operations of Comparison of Codes. . . . . . 234 S.2. Comparison of Codes by- Subtraction. . . . . . . . . . . . . . . . . 2.3 7 5.3. Comparison of Two Numbers Using Special Circuits . . . . . . . . . 241 5.4. Approximate Comparison of Two Numbers Ilepresented in Binary Code. 252 3/4- - 52  USSR GAVRILOV, Yu. V., PUCHKO, A. N., Arifineti-choskiye Us1-r.2NL,:;tva 1;,,strodCV5tVL1YUSh chikh ETS1,74, Moscow, Sovctshoy~, Radio Prcssj 1970, 280 aIAPTER 6. Operations of Code Shifting in Arithmetic Device 6.1. Principle Operations. 258 . . . . . . . . . . . . . . . . . 6.2. Realization of Code Shift Operations . . . . . . . . . . . . . 262 Bibliography . . . . . . . . . . . . . . . . . . . . . . . . . 275 A abetic Index . . . . . . . . . . . . . lph . . . . . . . . . . . . . . . . 277 414  USSR UDC 621,785.53 LyAKHOVICH' T. S., PUC OV.__f1:__E. and VOROSHNIN, L. G., Belorussian Polytechn-cal-Inititute. "Electrolytic Borating of Silicon and Nickel Steels" Minsk, Akademiya Nauk BSSR, Izvestiya, S riya Fiziko-Tekhni- cheskikh Nauk, No 2, 1970, pp 110-114 Translation: A study was made of the effect of silicon (up to 3.8%) and nickel (up to 5%) on the structure and kinetics of growth of a boronated layer of carbon (0.4' C) steel. Simul- taneously, the distribution of silicon and nickel deep inside the boronated layer and the transition zone as Oell as the dis- tribution of boron and carbon deep inside the transition zone were studied. It is shown that silicon reduces the depth of the boride zone, and nickel somewhat increases it. in silicon steels, under the layer of borides,~there is a wrell-developed zone of