13th balkan biochemical biophysical days & meeting on metabolic disorders’ programme & abstracts


DETERMINATION OF MEASLES VIRUS RECEPTOR ON LYMPHOCYTES



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DETERMINATION OF MEASLES VIRUS RECEPTOR ON LYMPHOCYTES

A.K. Pişkin*, P. Akpınar*, B. Anlar **


* Hacettepe University, Faculty of Medicine, Department of Biochemistry, Ankara, 06100, Turkey

** Hacettepe University, Faculty of Medicine, Pediatric Neurology Department, Ankara, 06100, Turkey

Introduction


Measles virus ( MV) causes an acute childhood disease which still claims roughly 1 million lives a year. Signalling lymphocyte activating molecule ( SLAM) is an immunoglobulin-like membrane glycoprotein which is expressed on activated T and B lymphocytes is recently shown to be the receptor for MV. This provided an explanation for the immunosupressive effects of MV. Therefore, detection and characterization of SLAM , which is also known as CD 150 or IPO-3 is rather important not only for understanding the molecular basis of MV related pathologies but also for new diagnostic and therapeutic targetting strategies . This study aims at demonstrating the expression of SLAM on lymphocytes by biochemical methods.

Materials and Methods


Leukocytes were separated from 10 ml whole blood obtained from healthy volunteers by Ficoll density gradient. Cells were cultured in RPMI 1640 supplemented with 10% FCS . Culture medium contained 16 units/ml LPS and 20 mg/ml Con A. Lymphocytes were collected after 48 hours and cell pellet was lysed in medium containing 1mM Tris HCl, 0.15 mM NaCl, 1mM PMSF and % 0.5 Triton X-100. Lymphocytes that are not activated and HL-60 cells are also cultured to be used as controls. Cell lysates were applied to % 10 SDS- PAGE electrophoresis run at 50 mA for 3 hours. Proteins were transfered to nitrocellulose membrane by Western blot and treated with anti IPO-3 monoclonal antibody. Native gels were also used for separation of lymphocyte proteins and also detected by immunoblotting. Bands were detected by peroxidase staining.

Results and discussion


In SDS-PAGE, SLAM band is found to be approximately 70 kD and in activated lymphocytes was larger as compared to that of unstimulated lymphocytes or HL-60 cells. This is in accordance with the stimulous dependent expression of the molecule. SLAM yielded single bands under denaturing and nondenaturing conditions . This indicates that it consists of a single chain and has no subunits. Furthermore, mercaptoethanol treatment did not cause any shift in the size of the molecule. However, SLAM moved very slowly in native gels as compared to that of SDS-PAGE indicating that the glycosilated part consists basicly of neutral glycolipids and/or the protein core is not rich in negatively charged amino acids. It is also found that immunodetection of SLAM is much more efficient when native gels are used. It is concluded that SLAM as an immunodominant molecule may be suppresed by MV enfections and further studies on the characterization of SLAM may reveal insights in molecular immunological mechanisms.

References


1. Tatsuo, H., Ono, N., Tanaka, K. and Yanagi,Y., SLAM is a cellular receptor for measles virus, Nature, 406: 893-897, 2000.

2. Movaddat, N., Mason, D.W., Atkinson, P.D. et.al, Signalling lymphocytic activation molecule ( CDw150) is homophilic but self-associates with very low affinity. J

Biol. Chem., 275(36): 28100-28109, 2000

P319

MONOCLONAL ANTIBODIES AGAINST HUMAN MYOGLOBULIN; FUNCTION ANALYSIS WITH BIOSENSOR TECHNIQUES

Ozeren, Muserref



Marmara University, Arts and Sciences Faculty, Deparment of Biology, Goztepe Kampusu, Istanbul, Turkey

The interaction between human heart myoglobulin and eight specific monoclonal antibodies (mAbs) was investigated with real time biomolecular interaction analysis (RT BIA), using Surface Plasmon Resonance (SPR). The purpose of this study was selection of high affinity mABs for the Nycocard, a rapid quantitative immunoassay format. Analysis of association and dissociation kinetics was monitored in real time, with unlabelled reactants. Antibody isotyping was rapid and simple.

Monoclonal antibodies with four different epitope specificities and optimal binding function were selected for a myoglobulin sandwich assay with enhanced sensitivity.

P320

INTERACTION OF ELONGATION FACTOR 2 WITH ACTIN

Kıvanç ERGEN1, Aynur KARADENİZLİ2, Fethiye KOLAYLI2, Bent RIIS3

1Kocaeli University Medical Faculty, Department of Biophysics, 41900, Derince-Kocaeli, TURKEY. akergen@superonline.com

2Kocaeli University Medical Faculty, Department of Microbiology, 41900, Derince-Kocaeli, TURKEY

3Department of Animal Product Quality, danish Institute of Agricultural Sciences, Research Centre Foulum, P.O. Box 50, DK-8830 Tjele, DENMARK

It has been indicated that several components of protein synthetic machinery can bind to actin microfilaments and their interactions with cyotoskeleton can play a role in programmed cell death. One of these components, Elongation Factor 2 (EF-2) is a protein involved in eukaryotic polypeptide chain elongation and promotes transloction in this process. In this study, actin and EF-2 interaction was investigated and an interaction was shown in nearest in vivo conditions using cell homogenates by anti-actin antibody and protein electrophoresis, contributing to the in vitro findings of an interaction between EF-2 and actin.



P321

THE EXAMINATION OF THE FUNCTIONAL PROPERTIES OF ADENOVIRUS TYPE 5 E4 ORF3 PROTEIN

Emre Koyuncu, Orkide Özge Dirlik, Thomas Dobner



Institut für Medizinische Mikrobiologie und Hygiene, LandshuterStr. 22, 93047, Regensburg/Germany

emrekoyuncu@lycos.com

Adenovirus is one of the mostly used gene therapy vectors to date. However, a major problem is the oncogenic potential of these viruses. E4 ORF3 protein is one of the oncoproteins of Adenovirus Type 5. Besides its oncogenic properties, previous reports have shown that it takes part in viral DNA replication, late viral protein synthesis, and shut-off of host protein synthesis. For this reason, in order to develop a more efficient and safe gene therapy vector, the functions of this protein should be well understood.

Most of our knowledge about the functions of ORF3 protein comes from its mutational analysis. It has never been expressed and purified successfully. In this extand, we tried to express ORF3 as a Glutathione-S-Transferase fussion protein in E. coli. At the end, we successfuly expressed and purified not only the wild type ORF3 but also four mutant forms, two of which lacking different regions in N-terminus, and the other two in C-terminus.

Moreover, by GST-capture assays, we determined interacting regions of ORF3 with the proteins that have been shown to bind ORF3 in vivo. Our results showed that,

C-terminus of ORF3 was important for protein interactions, at least for the proteins we have tested so far. This was also in agreement with the data we had from immunoflourescent analysis. One of the mutant ORF3 having a single amino acid exchange in C-terminus showed completely different localization from the wild type in the cell. The effects of this mutation and other mutations in the same region on viral growth and ORF3’s interacting partners is currently under our investigation. The results of this research will contribute to understanding of the functional properties of ORF3 which is very important for developing adenovirus vectors.

P322

PURIFICATION AND CHARACTERIZATION OF RAT SMALL INTESTINE GLUCOSE-6-PHOSPHATE DEHYDROGENASE

Ali DANIŞAN, Deniz CEYHAN, Hamdi ÖĞÜŞ and Nazmi ÖZER

Hacettepe University, Faculty of Medicine, Department of Biochemistry, 06100, Ankara/TURKEY

naozer@hacettepe.edu.tr

Glucose-6-phosphate dehydrogenase (G-6-PD) catalyzes the first step of the pentose phosphate patway which generates NADPH as reductive power for antioxidant systems and anabolic patways. G-6-PD was purified from the rat small intestine by successively use of homogenization, ultracentrifugation (105000 xg), ion exchange chromatography (DEAE-Fast Flow), dialysis and affinity chromatography (2’,5’-ADP-Sepharose 4B) with a specific activity of of 126 UI/mg protein and a yield of 21 %. PAGE showed three bands on protein staining, only the fast moving band had G-6-PD activity. Km values of enzyme for its substrates , NADP and glucose-6-phosphate, were calculated to to be 22,5 and 61,9 micromolar, respectively.

Rat small intestine G-6-PD has a ph optimum of 8.3. The activation energy, activation enthalpy and Q10 for the enzymatic reaction were calculated to be 8516 cal/mole, 7902 cal/mole and 1.59, respectively.


AUTHOR INDEX





ABDULOVA G. 75

ABOU AUDA M.M. 98

ACAN N.L. 207

ACAR C. 75

ACARTURK E. 140

ACIK L. 113, 114

ADALI O. 178

ADIGUZEL Z. 205

AFRASYAP L. 170, 215

AGACHAN B. 93

AGADJANYAN A.KH. 93

AGAR A. 212, 213

AgGADJANYAN A.A. 93

AGIRBASLI M. 183

AGIRDEMIR H. 143

AGLAMIS S. 174

AK BASOL G. 186

AKALIN N. 82

AKAR S. 100

AKDAG M.Z. 113, 118, 141, 146

AKDENIZ K.G. 195

AKIN A. 86

AKKAN I. 82

AKKAS S.B. 73

AKKAYA O. 210

AKMEMIS C. 170

AKOZ M. 212

AKPINAR P. 216

AKSEN F. 106, 113

AKSOY K. 104, 174

AKSOY Y. 102

AKSU A. 91

AKSU U. 158

AKTAS Z. 115, 116

AKYILMAZ E. 84, 133, 139

AKYOL O. 133, 174, 182

ALABAKOVASKA S. 131

ALAVANTIC D. 153

ALBENIZ I. 126

ALCHUJYAN N. 122

ALEXANDROV I. 158

ALEXANDROVA R. 158

ALEXANDRU D. 156

ALICIGUZEL Y. 213

ALP A. 207

ALTANER C. 158

ALTANEROVA V. 158

ALTANKOV G.P. 166

ALTINISIK M. 195

ALTUNDAL H. 169

ALVER A. 160

AMANVERMEZ R. 199

ANACHKOVA B. 74

ANANIEV E.D. 75, 144

ANANIEVA E.A. 145

ANDREASYAN N.A. 94

ANITA M. 188

ANLAR B. 216

APOSTOLOVA D. 152

ARDICOGLU A. 204, 205

ARI Z. 208

ARICAN A. 179

ARIKAN M.K. 160

ARINC E. 77, 178, 179

ARNAUTOVIC A. 132

ARSLAN B. 213

ARSLAN S. 178

ARSOVA V. 121

ARSOVSKI A. 185

ARTAMONOV M.V. 94, 95

ARTENI A.A. 180

ARTENIE V. 180

ASLAN A. 165, 175

ASLAN B. 164

ASLAN D. 82, 201, 206

ASSA P. 205

ATAMER Y. 79, 177

ATANASOV B. 163

ATANASOVA L. 141

ATANASSOV B. 74

ATAY A. 168, 211

ATMACA G. 127

ATUKEREN P. 158, 214

AVRAM S. 108

AYAR KAYALI H. 171

AYDIN B. 169

AYDIN E. 192

AYDIN S. 209, 213

AYDOGAN S. 191

AYDOGDU N. 127, 147, 148

AYGIT A.C. 114, 115

AYGUN S. 190

AZIBI K. 76

BABEANU C. 120



BAGIYEVA S. 105, 141, 215

BAIDANOVA V. 144

BAKALOVA N. 131, 135

BAKALOVA R. 105

BAKAN E. 179

BALAN S.A. 155

BANKOVA E. 131

BARAN A. 127, 128

BARICEVIC I. 96

BARIS I. 170, 215

BARISKANER H. 111

BARKUT Y. 136

BARLAK Y. 119

BARSEGYAN K. 122

BARZU O. 74, 159

BASKOL G. 199, 202

BATCIOGLU K. 103, 127

BATUN S. 79, 177

BAY KARABULUT A. 128, 159, 194

BAYIR Y. 165, 175

BAYRAKTAR N. 194

BAYRAMOGLU F. 112

BAYSAL K. 205

BAYSAL S. 127, 128

BEGIC L. 132

BELGE KURUTAS E. 106, 156, 157, 158

BENLI AKSUNGAR F. 96

BERZAL-HERRANZ A. 81

BIBEROGLU G. 89

BICAK E. 127, 128

BIKMAZ B. 126

BIKMAZ K. 126

BIKMAZ P.S. 126

BILGI C. 73, 194

BILGIHAN A. 122, 123

BILGIN M.D. 81

BINGOL B. 210, 214

BODEANU M. 76

BODUR E. 191

BOGDANOVIC G. 177

BOGOJEVIC D. 119

BOJIC D. 146

BOJINOVA V. 144

BOLAMAN Z. 193

BOR-KUCUKATAY M. 212

BOSTANCI M. 82

BOYANOV A. 149

BOYANOVA M. 81

BOYUNEGMEZ T. 179

BOZCARMUTLU A. 179

BOZKURT A. 140

BREWER J.M. 160

BROCK J.H. 155, 160

BROWN K.A. 176

BUBER E. 207

BUGARINOVIC S. 176, 183, 184

BULBUL M. 196

BURCAK G. 197

BURTEA M. 155

BUYUKBESE M.A. 106

BUYUKGEBIZ B. 91, 203

BUYUKYAZI G. 207, 208

CABA A. 102



CABADAK H. 169

CAKIR A. 165, 175

CAKIR B. 114, 115

CAKIR D.U. 79, 141, 146, 147, 177

CAKIR E. 73, 197

CALISKAN S. 214

CALISKANER P. 168

CAN YILMAZTURK G. 82

CANACANKATAN N. 150

CANDAN N. 161

CANEVARI S. 129

CANIC V. 176

CANORUC N. 79, 177

CANSEVEN A.G. 122, 123

CAPRARU D. 83

CAPRARU M. 83

CAVDAR Z. 196

CELEBI A. 113, 114

CELIK C. 199

CELIK I. 210

CELIK O. 187

CELIK T. 73, 166, 194

CERINIC M. 99

CETIN A. 189

CETINKAYA A. 106

CETINKAYA H. 214

CEYHAN D. 217

CHELU F. 155

CHERNEV P. 86, 172

CHISTOV K.N. 145, 171

CHRISTOU A. 187

CHRISTOV C. 143

CHUBARYAN S.V. 93

CICIK E. 100

CIGERLI S. 164

CIGREMIS Y. 187

CIKIM G. 157

CILDAG O. 195

CIOBANU G 120

COKUGRAS A.N. 191, 192

COLAK M. 119

COLIC N. 146

COLOMBO M. 129

COMAN A.C. 97, 129

CONDAC E. 118

CONSTANTINESCU E. 126

CORIC J. 190

CORUH N. 189, 192, 200

COSKUN G. 137

COSTACHE G. 76

CREANGA D.E. 180, 188, 194

CREANGA I. 180

CUTTONE G. 85

DAGLAR A. 113, 147, 148



DALDAL F 190, 210

DALKARA T. 78

DALKILIC N. 111, 112

DALMIZRAK O. 78

DANISAN A. 217

DAPCEVIC B. 146

DAS D. 99

DASDAG S. 113, 118

DEDOVIC N. 132

DEGER O. 119, 160

DEJANOV P. 186

DEJANOVA B. 185, 186

DEMAJO M. 85, 105, 106, 121, 168

DEMIR T. 100

DEMIRCEYLAN E. 175

DEMIRCI C. 214

DEMIRCIOGLU A.S. 183, 184

DEMIREL H. 100

DEMIREL I. 111, 112

DEMIREVSKA-KEPOVA K. 110, 111

DEMIRKAZIK A. 150, 165

DEMIROGLU A. 202

DEMIRPENCE E. 193

DENES A.S. 74, 159

DENIZCI A.A. 143, 162

DERIN N. 213

DEVECI R. 186

DIMITRIJEVIC B. 121, 132, 151

DIMITROV I. 145

DIMITROVA R. 81

DIMITROVSKI C. 75

DIMOVSKI A.J. 71

DINCER A. 72, 137, 138

DINCKAYA E. 84, 133, 136, 137, 139

DINIC S. 119

DINU D. 118, 131

DIRLIK O.O. 217

DJUJIC I. 168

DOBNER T. 217

DOBRIKOVA A.G. 136

DOBRIN A. 76, 155

DOGAN A. 206

DOGAN A.L. 193

DOGAN Ayca 193

DOGAN Ayse 150, 165

DOGAN N. 111

DONEVSKA J. 186

DONMA O. 100

DORAN F. 150

DORDEVIC A. 177

DRAGIC M. 121

DRAGOMIR E. 83

DRAMICANIN T. 132

DROSOPOULOS C. 80

DUMAN E. 134, 154, 153

DUNDAR E. 140

DURUKAN H. 78

DUZGUNCINAR O. 193

ECONOMOU A. 99



EFREMOV G.D. 71, 75

EKERBICER N. 195

EKMEKCI O.B. 100

ELBAKYAN G. 122

ELDEM Y.Y. 130

ELIBOL B. 78

ELMAS O. 213

EMINOGLU M. 196

ENGIZEK T. 172

ENLI Y. 201, 206

ERARSLAN A. 143, 162

ERBAS H. 113, 148, 147

ERCAN A. 78

ERCIYAS F. 211

EREM C. 160

EREN A. 96

EREN N. 164

ERGEN H.A. 93

ERGEN K. 216

ERGENC S. 172

ERGIN H. 201, 206

ERMAN F. 209

ERSOY B. 208

ESKANDARI H. 92

EVRAN S. 137

EYSKENS F. 90, 203, 204

FADILLIOGLU E. 174



FARBER D.B. 78

FEDINA I. 98, 103, 109

FELLER U. 110

FERRI R. 129

FIGINI M. 129

FILIP C. 102, 103

FILIPCE D. 186

FILIPCE V. 185, 186

FILIPCE V.I. 185

FILIPOVIC D. 101, 139

FISGIN N. 198

FRANGOPOL P. 187

FUSTIK S. 129

GADJEVA M. 114, 163



GANEA E. 96, 97, 118, 129

GANEV V. 114

GARGILI A. 214

GATEVA P. 94

GEGOVA A. 109

GENC K. 210

GENC M. 103

GENC S. 210

GEORGIEV M. 94

GEORGIEVA K. 98, 103, 109

GEZER S. 156

GHAZARYAN S. 122

GHEORGHITA N. 102, 103

GLISIC S. 153

GLODEANU E. 120

GOCER F. 165

GOKER B. 169

GOKER I. 154

GOKKUSU C. 126

GOKTUG T. 136, 137

GOLDFINE H. 190

GOLTSEV V. 86, 172, 173

GORGULU G. 72, 139

GORGULU S. 72

GRIGOROVA I. 98, 103

GROZDANOV P. 75

GUDUMAC V. 128

GUIDUCCI S. 99

GUJA C. 155

GUL S. 156, 158

GULA N.M. 94, 95

GULDUR T. 194

GULEC M. 133, 174, 182

GULEN S. 113, 114, 115

GULER G. 124

GULTEPE M. 166, 199

GUMUSTAS M.K. 158, 214

GUNAY I. 150, 165, 182

GUNDOGDU U. 142

GUNEBAKAN S. 172

GUNEL-OZCAN A. 178

GUNEN H. 159

GUNER G. 155, 175, 196

GUNGOR O. 116

GURAY T. 72, 139

GURBILEK M. 212

GURKAN H. 107

GUVEN A. 157

GUVENC H.B. 205

GUZEL S.P. 209

GUZELDEREN F.G. 100

GUZVIC M. 132

HACIEVLIYAGIL S.S. 159



HACIOGLU G. 212

HADJIMITOVA V. 105

HAIRAPETYAN H.L. 94

HALICI M. 165, 167, 175

HALIFEOGLU I. 204, 205, 209

HARDALAC F. 124

HARDING J.J. 96

HASCALIK M. 187

HASCALIK S. 187

HASCELIK G. 197

HATZISTAVROU E. 98

HAZAROSOVA R. 151

HAZNECI E. 103

HEKIM N. 89, 184

HEKIMSOY Z. 168

HELTIANU C. 75, 155

HERLYN D. 129

HLUBINOVA K. 158

HOLZER R. 110

HORVAT A.I. 105, 121

HORVATH A. 114

HOSVER I. 160

HRISTOVA M. 176

ILHAN B. 111



ILHAN Necip 204, 205

ILHAN Nevin 204, 205

ILIC M. 146

ILIC Z.S. 144

ILKAY E. 205

INANC F. 106, 156, 157, 158

INHAN G.A. 162

IOCHEV M. 85

IONESCU-TIRGOVISTE C. 155

IPCIOGLU O.M. 166, 199

IPEK E. 140

IRAZ M. 133, 174, 182

IRFANOGLU M.E. 113

ISBIR T. 93

ISCAN M. 200

ISGOR B. 200

ISIK B. 113

ISLEKEL H. 214

IVANOV I. 81, 123, 158

IVANOV R. 189

IVANOVIC-MATIC S. 119

JAKIMOV D. 177



JANAC B. 180

JANEZIC D. 85

JOKANOVIC M. 151, 180

JORDANOVA A.G. 112, 119, 160

JORDANOVA P. 158

JOVANOVIC Z. 153

JOZANOV-STANKOV O. 151, 168

JURANIC Z. 167

KABALAK T. 153, 154



KACAR S.B. 86

KAHRAMAN H. 205

KALFIN R. 99

KALKAN M.T. 162

KAN B. 169

KANDIL A. 214

KANIT L. 138

KANJER K. 76

KAPLAN A. 79, 177

KAPTANAGASI ORCUN A. 142

KARAALI Z.E. 93

KARAARSLAN I. 88, 198

KARACALI S. 186

KARADAG F. 195

KARADENIZLI A. 216

KARAGYOZOV L. 75

KARAHAN S.C. 160

KARANFILSKA D.P. 71, 75

KARAVELIOGULLARI F.A. 114

KARDESOGLU E. 166

KARSHIKOFF A. 71, 81

KARTAL F. 135

KARUL A.B. 195

KASAPOVIC J. 101, 139

KAYIR H. 73, 194

KAYMAK K. 127, 148, 147

KAYNAR O. 194

KAYRIN L. 150

KAZAN D. 143, 162

KAZANCI N. 170, 171, 213

KAZAZ C. 175

KAZEZOGLU C. 115

KELES S. 167

KELESTIMUR F. 91

KENGIL I. 96

KERIMAK ONER M.N. 162

KESKIN S. 207

KEVORKIAN G. 122

KHMEL T.O. 95

KILIC E. 202

KILIC N. 209

KILINC A. 135

KILINC E. 156

KILINC M. 106, 156, 157, 158

KILINC N. 118

KIRAN H. 157

KISHORE U. 114, 163

KIZIL C. 139

KJURKCHIEV S. 167

KNEZEVIC-USAJ S. 121

KOCABAS V. 212

KOCDOR H. 196

KOCER M. 159

KOCEVA B. 75

KODROV P. 85

KOJIC V. 177

KOJOUHAROVA M. 114, 163

KOLAROSKA D. 101

KOLAYLI F. 216

KOLDAS L. 100

KOLEV D. 131, 135

KOLEVA I. 109

KONUS M. 200

KORICANAC G. 78

KORICANAC L. 85, 106

KORKMAZ F. 211

KORKMAZ M. 205

KORUGAN U. 91

KOSEOGLU M.H. 168

KOSTOVA N.N. 98

KOUZMANOVA M. 176

KOYUNCU E. 217

KOZELOV L. 148

KRSTIC-DEMONACOS M. 109

KRTOLICA K. 121, 132

KUCUK S.H. 197

KUCUKATAY V. 212

KULAKSIZ G. 78

KUNDAK A.A. 148

KUNEVA T. 152

KURAL A. 164

KURALAY F. 210, 214

KURKCUOGLU M. 140

KURTUL N. 179

KUTAY F.Z. 186

KYRIAKIDIS D.A. 87

LABUDOVIK D. 131



LALCHEV Z.I. 112, 119, 160, 166

LALELI Y. 197

LAMBEV I. 105

LAMBREV P. 86, 173

LARSSON A.K. 102

LASTUN V. 150

LAVCANSKA J. 121

LEAHU R. 188

LEFEVERE M. 203

LUKAREVSKA V. 129

LUPACHYK S.V. 122

LYGEROU Z. 77

MAFTEI M. 102



MAHURAN D.J. 181

MAJKIC-SINGH N. 146, 153, 162

MALESKA V. 186

MANCEVSKA R. 186

MANDACI S. 190, 210

MANDUTEANU I. 83

MANEA A. 126

MANNERVIK B. 102

MANUKYAN A.V. 93

MARDANYAN S.S. 94

MARINESCU G. 120

MARKICEVIC M. 152

MARKOV D.V. 98

MARKOVA M. 95

MARKOVIC L. 168

MASALCI O. 171

MASLENKOVA L. 109

MEDIC L. 151

MELANI C. 129

MEMISOGULLARI R. 167

MENZILETOGLU S.Y. 104

METE N. 141, 146

MIHAILOVIC M. 119

MIKOSHA O.S. 95

MILAC A. 108

MILEVA K.N. 189

MILLER L.M. 102

MILOVANOVIC S. 124

MINCHEVA J. 143, 144

MIRONOVA R. 81

MITREVSKA S. 101

MIZRAK B. 187

MLADENOV E. 74

MLADNOV D. 94

MODEVA T. 148

MOMIC T. 140

MOUMTZI S. 80

MOUSTAKAS M. 187, 188

MOVSESYAN H. 122

MOVSESYAN N. 122

MRSA V. 82

MUFTUOGLU M. 78

MUHTAROGLU S. 199, 202

MUJAGIC H. 120

MUJAGIC Z. 120

MURGULET C. 194

MUSTATA R.C. 196

MUTLU L.C. 159

NACHEVA G. 81



NADOLNIK L.I. 122, 125

NAIRA S. 108

NANEV C. 145

NECHIFOR M.T. 118, 131

NECHIFOR Mihai 103

NEDELJKOVIC J. 96

NEDEVA D. 143, 144

NEDIC O. 96

NEICHEVA T. 112, 119

NIATSETSKAYA Z.V. 122, 125

NICHITA N. 149

NICOLAE M. 156

NIKETIC V. 116, 117

NIKOLAVA A. 143, 144

NIKOLIC J.A. 96

NIKOLIC M. 116, 117

NIKOLIC-VUKOSAVLJEVIC D. 76, 152

NIKOLOVSKA E. 186

NIKOLOVSKI M. 94

NIKOYAN A.A. 93

NINIO S. 112, 119

NIWA T. 81

NOVAKOVIC J. 152

OBA R. 183



OCAL I. 150, 165

OD Z. 95


ODABASOGLU F. 165, 175, 167

ODACI D. 133, 134

ODJAKOVA M. 167, 168, 173

OGUS A. 75, 141, 215

OGUS H. 78, 217

OK E. 202

OKABE H. 155, 175

OKAJIMA K. 155, 175

OKAY S. 140

OKUR E. 157



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