TY  - JOUR
AU  - Milošević, Mirjana
AU  - Zlokolica, Marija Ž.
AU  - Sekulić, Petar
AU  - Jarak, Mirjana
AU  - Taški, Ksenija
PY  - 2004
UR  - http://fiver.ifvcns.rs/handle/123456789/259
AB  - Transgenic plants are developed by introgressing new genes using methods of molecular genetics and genetic engineering. The presence of these genes in plant genome is identified on the basis of specific oligonucleotides primers, and the use of PCR (Polymerase Chain Reaction) and DNA fragments multiplication. Genetically modified plants such as soybean constitute a newly created bioenergetic potential whose gene expression can cause disturbance of the biological balance ecosystem, soil structure and soil microbiological activity. Genetically modified plants may acquire monogenic or polygenic traits causing genetic and physiological changes in these plants, which may elicit a certain reaction of the environment including changes of microbiological composition of soil rhizosphere. The aim of introgressing genes for certain traits into a cultivated plant is to enhance its yield and intensify food production. There are more and more genetically modified plant species such as soybean, corn, potato, rice and others and there is a pressure to use them as human food and animal feed. Genetically modified soybean plants with introgressed gene for resistance to total herbicides, such as Round-up, are more productive than non-modified herbicide-sensitive soybeans.
AB  - Metode molekularne genetike uvedene u genetski inžinjering učestvuju u programu transgenih biljaka, nastalih uvođenjem novih gena, koji su u osnovi traženih osobina. Njihovo prisustvo u biljnom genomu se identifikuje na bazi specifičnih oligonukleotida, prajmera, korišćenjem PCR (Polymerase Chain Reaction), metode umnožavanja DNK fragmenata. Genetski modifikovane biljke kao što je soja, postaju novonastali bioenergetski potencijal za sredinu u kojoj se razvijaju, čija ekspresija gena može izazvati poremećaj bioravnoteže, ekosistema, strukture zemljišta, njegove mikrobiološke aktivnosti. Genetski modifikovane biljke mogu biti sa uvedenim monogenim ili poligenim svojstvima, što dovodi do njihovih genetsko-fizioloških promena i određenih reakcija u sredini u kojoj se nalaze. Smatra se da organizmi sa novonastalom genetskom strukturom mogu uticati na izmenu bio-ravnoteže sredine u kojoj se nalaze, kao što su promene hemijskog i mikrobiološkog sastava u rizosferi zemljišta, koje će usloviti niz izmena njegove bioenergetske sposobnosti. Uvođenje gena za određene osobine biljaka ima za cilj povećanje njihovog prinosa i intenzivniju proizvodnju hrane. Otuda je sve veći broj modifikovanih biljnih vrsta, kao što su soja, kukuruz, krompir pirinač i druge, koje imaju veliko učešće u ishrani ljudi i životinja, zbog čega je neophodna kontrola takvih biljnih vrsta i sredine u kojoj se one nalaze. Genetski modifikovane biljke soje, sa unetim genom za rezistentnost na totalni herbicid, kao što je Round up, doprinosi njihovoj većoj produktivnosti, za razliku od nemodifikovanih biljaka, koje ne podnose ovakvu vrstu herbicida. Međutim, osobina novouneta u genom biljke može imati različite posledice po okolinu u kojoj se nalazi, što je pre svega u vezi sa ciljem njenog nastanka, kao što su otpornost soje na totalni herbicid, Round up i njen odnos sa sredinom.
PB  - Matica srpska, Novi Sad
T2  - Zbornik Matice srpske za prirodne nauke
T1  - Genetically modified soybean plants and their ecosystem
T1  - Genetski modifikovane biljke soje i njihov ekosistem
EP  - 44
IS  - 106
SP  - 39
DO  - 10.2298/ZMSPN0416039M
ER  - 

@article{
author = "Milošević, Mirjana and Zlokolica, Marija Ž. and Sekulić, Petar and Jarak, Mirjana and Taški, Ksenija",
year = "2004",
abstract = "Transgenic plants are developed by introgressing new genes using methods of molecular genetics and genetic engineering. The presence of these genes in plant genome is identified on the basis of specific oligonucleotides primers, and the use of PCR (Polymerase Chain Reaction) and DNA fragments multiplication. Genetically modified plants such as soybean constitute a newly created bioenergetic potential whose gene expression can cause disturbance of the biological balance ecosystem, soil structure and soil microbiological activity. Genetically modified plants may acquire monogenic or polygenic traits causing genetic and physiological changes in these plants, which may elicit a certain reaction of the environment including changes of microbiological composition of soil rhizosphere. The aim of introgressing genes for certain traits into a cultivated plant is to enhance its yield and intensify food production. There are more and more genetically modified plant species such as soybean, corn, potato, rice and others and there is a pressure to use them as human food and animal feed. Genetically modified soybean plants with introgressed gene for resistance to total herbicides, such as Round-up, are more productive than non-modified herbicide-sensitive soybeans., Metode molekularne genetike uvedene u genetski inžinjering učestvuju u programu transgenih biljaka, nastalih uvođenjem novih gena, koji su u osnovi traženih osobina. Njihovo prisustvo u biljnom genomu se identifikuje na bazi specifičnih oligonukleotida, prajmera, korišćenjem PCR (Polymerase Chain Reaction), metode umnožavanja DNK fragmenata. Genetski modifikovane biljke kao što je soja, postaju novonastali bioenergetski potencijal za sredinu u kojoj se razvijaju, čija ekspresija gena može izazvati poremećaj bioravnoteže, ekosistema, strukture zemljišta, njegove mikrobiološke aktivnosti. Genetski modifikovane biljke mogu biti sa uvedenim monogenim ili poligenim svojstvima, što dovodi do njihovih genetsko-fizioloških promena i određenih reakcija u sredini u kojoj se nalaze. Smatra se da organizmi sa novonastalom genetskom strukturom mogu uticati na izmenu bio-ravnoteže sredine u kojoj se nalaze, kao što su promene hemijskog i mikrobiološkog sastava u rizosferi zemljišta, koje će usloviti niz izmena njegove bioenergetske sposobnosti. Uvođenje gena za određene osobine biljaka ima za cilj povećanje njihovog prinosa i intenzivniju proizvodnju hrane. Otuda je sve veći broj modifikovanih biljnih vrsta, kao što su soja, kukuruz, krompir pirinač i druge, koje imaju veliko učešće u ishrani ljudi i životinja, zbog čega je neophodna kontrola takvih biljnih vrsta i sredine u kojoj se one nalaze. Genetski modifikovane biljke soje, sa unetim genom za rezistentnost na totalni herbicid, kao što je Round up, doprinosi njihovoj većoj produktivnosti, za razliku od nemodifikovanih biljaka, koje ne podnose ovakvu vrstu herbicida. Međutim, osobina novouneta u genom biljke može imati različite posledice po okolinu u kojoj se nalazi, što je pre svega u vezi sa ciljem njenog nastanka, kao što su otpornost soje na totalni herbicid, Round up i njen odnos sa sredinom.",
publisher = "Matica srpska, Novi Sad",
journal = "Zbornik Matice srpske za prirodne nauke",
title = "Genetically modified soybean plants and their ecosystem, Genetski modifikovane biljke soje i njihov ekosistem",
pages = "44-39",
number = "106",
doi = "10.2298/ZMSPN0416039M"
}

Milošević, M., Zlokolica, M. Ž., Sekulić, P., Jarak, M.,& Taški, K.. (2004). Genetically modified soybean plants and their ecosystem. in Zbornik Matice srpske za prirodne nauke
Matica srpska, Novi Sad.(106), 39-44.
https://doi.org/10.2298/ZMSPN0416039M

Milošević M, Zlokolica MŽ, Sekulić P, Jarak M, Taški K. Genetically modified soybean plants and their ecosystem. in Zbornik Matice srpske za prirodne nauke. 2004;(106):39-44.
doi:10.2298/ZMSPN0416039M .

Milošević, Mirjana, Zlokolica, Marija Ž., Sekulić, Petar, Jarak, Mirjana, Taški, Ksenija, "Genetically modified soybean plants and their ecosystem" in Zbornik Matice srpske za prirodne nauke, no. 106 (2004):39-44,
https://doi.org/10.2298/ZMSPN0416039M . .

TY  - JOUR
AU  - Zlokolica, Marija Ž.
AU  - Milošević, Mirjana
AU  - Nikolić, Zorica
AU  - Vujaković, Milka
PY  - 2002
UR  - http://fiver.ifvcns.rs/handle/123456789/136
AB  - Isozymes can serve as genetic markers and their number should be large enough in order to make the coverage of genomes as complete as possible and in order to use these methods for gene marking for required agronomic traits. These markers are the products of 21 mapped genes, which is relatively reliable number for their application in mapping for certain agronomic traits. Genetic variability and diversity are significant for populations and for selfpolinated lines as basic material in breeding and creation of new corn hybrids. For that reason, several groups of corn populations of different origin were analyzed. Two groups of Yugoslav populations, Italian, Portuguese and French collections were assessed on the basis of detected alleles of 21 loci and standard genetic distances between genotypes. Yugoslav corn collections had shown high heterozygosity, on the basis of isozymes as gene markers. Genetic diversity of Italian populations was pronounced on the basis of some loci, and the Portuguese populations had more polymorphic and more heterozygous loci than French populations Inter-genetic variability between populations and their geographical location are very important in breeding crops for creation of heterosis.
AB  - Izoenzimi se koriste kao genetski markeri, a njihov broj treba da bude dovoljno velik da bi pokrivenost genoma bila što veća i kao takvi su markeri gena za tražena agronomska svojstva. Upotrebljeni markeri su proizvodi 21 mapiranog gena, što predstavlja relativno pouzdan broj za tumačenje genetske osnove određenih osobina genotipa. Genetska varijabilnost i divergentnost su značajne za populacije i samooplodne linije, kao osnovni materijal u selekciji i stvaranju novih hibrida kukuruza. Iz tog razloga analizirano je nekoliko grupa populacija kukuruza različitog porekla. Dve grupe jugoslovenskih populacija, italijanska, portugalska i francuska kolekcija bile su ocenjene na osnovu alelne varijabilnosti za 21 lokus i standardne genetske udaljenosti unutar svake populacije. Jugoslovenske kolekcije kukuruza su pokazale visoku heterogenost na bazi izoenzima kao gen. markera Genetska divergentnost italijanske kolekcije je naglašena na bazi nekih lokusa, a portugalska je imala više polimorfnih i heterozigotnih lokusa od francuske kolekcije, što znači veći potencijal genetske varijabilnosti Inter-genetska varijabilnost između populacija i njihove geografske lokacije veoma su značajan uslov u selekciji biljnih vrsta i njihov heterozis.
PB  - Matica srpska, Novi Sad
T2  - Zbornik Matice srpske za prirodne nauke
T1  - Genetic variability and diversity of corn breeding material originating from domestic and foreign populations determined on the basis of biochemical-genetical markers
T1  - Genetska varijabilnost i divergentnost selekcionog materijala kukuruza koji potiče od domaćih i stranih populacija, determinisana na bazi biohemijsko-genetskih markera
EP  - 45
IS  - 103
SP  - 35
DO  - 10.2298/ZMSPN0201035Z
ER  - 

@article{
author = "Zlokolica, Marija Ž. and Milošević, Mirjana and Nikolić, Zorica and Vujaković, Milka",
year = "2002",
abstract = "Isozymes can serve as genetic markers and their number should be large enough in order to make the coverage of genomes as complete as possible and in order to use these methods for gene marking for required agronomic traits. These markers are the products of 21 mapped genes, which is relatively reliable number for their application in mapping for certain agronomic traits. Genetic variability and diversity are significant for populations and for selfpolinated lines as basic material in breeding and creation of new corn hybrids. For that reason, several groups of corn populations of different origin were analyzed. Two groups of Yugoslav populations, Italian, Portuguese and French collections were assessed on the basis of detected alleles of 21 loci and standard genetic distances between genotypes. Yugoslav corn collections had shown high heterozygosity, on the basis of isozymes as gene markers. Genetic diversity of Italian populations was pronounced on the basis of some loci, and the Portuguese populations had more polymorphic and more heterozygous loci than French populations Inter-genetic variability between populations and their geographical location are very important in breeding crops for creation of heterosis., Izoenzimi se koriste kao genetski markeri, a njihov broj treba da bude dovoljno velik da bi pokrivenost genoma bila što veća i kao takvi su markeri gena za tražena agronomska svojstva. Upotrebljeni markeri su proizvodi 21 mapiranog gena, što predstavlja relativno pouzdan broj za tumačenje genetske osnove određenih osobina genotipa. Genetska varijabilnost i divergentnost su značajne za populacije i samooplodne linije, kao osnovni materijal u selekciji i stvaranju novih hibrida kukuruza. Iz tog razloga analizirano je nekoliko grupa populacija kukuruza različitog porekla. Dve grupe jugoslovenskih populacija, italijanska, portugalska i francuska kolekcija bile su ocenjene na osnovu alelne varijabilnosti za 21 lokus i standardne genetske udaljenosti unutar svake populacije. Jugoslovenske kolekcije kukuruza su pokazale visoku heterogenost na bazi izoenzima kao gen. markera Genetska divergentnost italijanske kolekcije je naglašena na bazi nekih lokusa, a portugalska je imala više polimorfnih i heterozigotnih lokusa od francuske kolekcije, što znači veći potencijal genetske varijabilnosti Inter-genetska varijabilnost između populacija i njihove geografske lokacije veoma su značajan uslov u selekciji biljnih vrsta i njihov heterozis.",
publisher = "Matica srpska, Novi Sad",
journal = "Zbornik Matice srpske za prirodne nauke",
title = "Genetic variability and diversity of corn breeding material originating from domestic and foreign populations determined on the basis of biochemical-genetical markers, Genetska varijabilnost i divergentnost selekcionog materijala kukuruza koji potiče od domaćih i stranih populacija, determinisana na bazi biohemijsko-genetskih markera",
pages = "45-35",
number = "103",
doi = "10.2298/ZMSPN0201035Z"
}

Zlokolica, M. Ž., Milošević, M., Nikolić, Z.,& Vujaković, M.. (2002). Genetic variability and diversity of corn breeding material originating from domestic and foreign populations determined on the basis of biochemical-genetical markers. in Zbornik Matice srpske za prirodne nauke
Matica srpska, Novi Sad.(103), 35-45.
https://doi.org/10.2298/ZMSPN0201035Z

Zlokolica MŽ, Milošević M, Nikolić Z, Vujaković M. Genetic variability and diversity of corn breeding material originating from domestic and foreign populations determined on the basis of biochemical-genetical markers. in Zbornik Matice srpske za prirodne nauke. 2002;(103):35-45.
doi:10.2298/ZMSPN0201035Z .

Zlokolica, Marija Ž., Milošević, Mirjana, Nikolić, Zorica, Vujaković, Milka, "Genetic variability and diversity of corn breeding material originating from domestic and foreign populations determined on the basis of biochemical-genetical markers" in Zbornik Matice srpske za prirodne nauke, no. 103 (2002):35-45,
https://doi.org/10.2298/ZMSPN0201035Z . .

TY  - JOUR
AU  - Zlokolica, Marija Ž.
AU  - Milošević, Mirjana
AU  - Nikolić, Zorica
AU  - Galović, Vladislava
PY  - 2002
UR  - http://fiver.ifvcns.rs/handle/123456789/137
AB  - Different genetic markers are used for estimation of breeding material, its characteristics and potential for ultimate aim - heterosis of hybrids. They also point out to the qualitative seed traits at the level of linkage with genes responsible for desirable agronomic traits. This program encompasses testing methodologies for the new seed technology. Genetic analysis of breeding material during certain phases is comprised of isozymic gene expression and degrees of their variability, but it is continued (in order to be evaluated) until determination of presence or absence of some genes existing or introduced for certain traits. Using combination of different molecular methods such as PCR, RAPD and AFLP based on polymorphism of DNA fragments, the definite aim - identification of newly created products of improvement is achieved. Testing of traits of breeding material, its genetic variability and diversity is the first stage in analysis of the maize genome. It is also the condition for determination of presence of certain genes, used for obtaining the ultimate aim - attest of identity of the genotype.
AB  - Različiti genetski markeri se koriste za tumačenje selekcionog materijala njegovih osobina i osnove za krajnji cilj - heterozis hibrida. Oni su takođe pokazatelji kvaliteta semena na nivou vezanih gena za određena, tražena agronomska svojstva. Ovaj program uključuje nove metodologije za testiranje selekcionog i semenskog materijala. Genetske analize biljaka u fazama oplemenjivanja obuhvataju izoenzimsku ekspresiju gena i stepen njihove varijabilnosti, koja se nastavlja do determinacije prisustva ili odsustva gena, odgovornih za određena svojstva. Primenjuje se kombinacija različitih genetsko-molekularnih metoda, kao što su izoenzimi PCR, RAPD, AFLP, RFLP bazirani na polimorfizmu proteina i sekvenci DNK, čiji je krajnji cilj identifikacija novostvorenih genotipova i njihovo unapređenje. Utvrđivanje osobina selekcionog materijala, njegove genetske varijabilnosti i divergentnosti je prva faza u spoznaji genoma kukuruza. To je takođe uslov za determinaciju prisustva određenih gena, potrebnu za postizanje završne faze, potvrde o identitetu genotipa.
PB  - Matica srpska, Novi Sad
T2  - Zbornik Matice srpske za prirodne nauke
T1  - Identification of genetic characteristics of maize (Zea mays L.) using genetic markers
T1  - Identifikacija genetskih osobina kukuruza (Zea mays L.) korišćenjem genetskih markera
EP  - 56
IS  - 103
SP  - 47
DO  - 10.2298/ZMSPN0201047Z
ER  - 

@article{
author = "Zlokolica, Marija Ž. and Milošević, Mirjana and Nikolić, Zorica and Galović, Vladislava",
year = "2002",
abstract = "Different genetic markers are used for estimation of breeding material, its characteristics and potential for ultimate aim - heterosis of hybrids. They also point out to the qualitative seed traits at the level of linkage with genes responsible for desirable agronomic traits. This program encompasses testing methodologies for the new seed technology. Genetic analysis of breeding material during certain phases is comprised of isozymic gene expression and degrees of their variability, but it is continued (in order to be evaluated) until determination of presence or absence of some genes existing or introduced for certain traits. Using combination of different molecular methods such as PCR, RAPD and AFLP based on polymorphism of DNA fragments, the definite aim - identification of newly created products of improvement is achieved. Testing of traits of breeding material, its genetic variability and diversity is the first stage in analysis of the maize genome. It is also the condition for determination of presence of certain genes, used for obtaining the ultimate aim - attest of identity of the genotype., Različiti genetski markeri se koriste za tumačenje selekcionog materijala njegovih osobina i osnove za krajnji cilj - heterozis hibrida. Oni su takođe pokazatelji kvaliteta semena na nivou vezanih gena za određena, tražena agronomska svojstva. Ovaj program uključuje nove metodologije za testiranje selekcionog i semenskog materijala. Genetske analize biljaka u fazama oplemenjivanja obuhvataju izoenzimsku ekspresiju gena i stepen njihove varijabilnosti, koja se nastavlja do determinacije prisustva ili odsustva gena, odgovornih za određena svojstva. Primenjuje se kombinacija različitih genetsko-molekularnih metoda, kao što su izoenzimi PCR, RAPD, AFLP, RFLP bazirani na polimorfizmu proteina i sekvenci DNK, čiji je krajnji cilj identifikacija novostvorenih genotipova i njihovo unapređenje. Utvrđivanje osobina selekcionog materijala, njegove genetske varijabilnosti i divergentnosti je prva faza u spoznaji genoma kukuruza. To je takođe uslov za determinaciju prisustva određenih gena, potrebnu za postizanje završne faze, potvrde o identitetu genotipa.",
publisher = "Matica srpska, Novi Sad",
journal = "Zbornik Matice srpske za prirodne nauke",
title = "Identification of genetic characteristics of maize (Zea mays L.) using genetic markers, Identifikacija genetskih osobina kukuruza (Zea mays L.) korišćenjem genetskih markera",
pages = "56-47",
number = "103",
doi = "10.2298/ZMSPN0201047Z"
}

Zlokolica, M. Ž., Milošević, M., Nikolić, Z.,& Galović, V.. (2002). Identification of genetic characteristics of maize (Zea mays L.) using genetic markers. in Zbornik Matice srpske za prirodne nauke
Matica srpska, Novi Sad.(103), 47-56.
https://doi.org/10.2298/ZMSPN0201047Z

Zlokolica MŽ, Milošević M, Nikolić Z, Galović V. Identification of genetic characteristics of maize (Zea mays L.) using genetic markers. in Zbornik Matice srpske za prirodne nauke. 2002;(103):47-56.
doi:10.2298/ZMSPN0201047Z .

Zlokolica, Marija Ž., Milošević, Mirjana, Nikolić, Zorica, Galović, Vladislava, "Identification of genetic characteristics of maize (Zea mays L.) using genetic markers" in Zbornik Matice srpske za prirodne nauke, no. 103 (2002):47-56,
https://doi.org/10.2298/ZMSPN0201047Z . .

TY  - JOUR
AU  - Zlokolica, Marija Ž.
AU  - Milošević, Mirjana
AU  - Balešević-Tubić, Svetlana
AU  - Nikolić, Zorica
AU  - Galović, Vladislava
AU  - Vujaković, Milka
PY  - 2000
UR  - http://fiver.ifvcns.rs/handle/123456789/31
AB  - Identification of plants species and their 'fingerprinting' are based on morphological, biochemical-genetic and molecular markers. The aim of this paper was to determine genetic basis of the breeding material from its source-population to its final breeding products, the varieties and hybrids. Using combination of several methods based on morphological, protein and DNK markers, the basic traits of genotypes such as: differentiability, uniformity and stability (DUS tests) were determined. These are the components necessary for identification of seed and its quality and protection of breeders rights. Among markers the AFLP method is advantageous being based on polymorphic fragments DNA and because of that the complete coverage of the genomes was achieved. By its combination with other methods the origin of genotype was determined at the international level and in accordance with UPOV regulations.
AB  - Identifikacija biljnih vrsta, njihov fingerprinting se zasniva na morfološkim, biohemijsko-genetskim i molekularnim markerima. Cilj ovog rada je utvrđivanje genetske osnove selekcionog materijala, od njegovog izvornog-populacionog, do krajnjih proizvoda selekcije, sorti i hibrida. Kombinacijom više metoda, zasnovanih na morfološkim, proteinskim i DNK markerima, utvrđuju se osnovna svojstva posmatranih genotipova, kao što su: udaljenost, uniformnost i stabilnost (DUS testovi). Ovo su komponente neophodne za identifikaciju semena, njegovog kvaliteta i zaštitu autorskih prava. Među markerima prednost ima AFLP metoda, zasnovana na polimorfizmu fragmenata DNK, kojima se postiže velika pokrivenost genoma. Kombinacijom AFLP sa drugim metodama utvrđuje se originalnost genotipa i njegov identitet za datu vrstu, u međunarodnim razmerama, u skladu sa propisima UPOV.
PB  - Institut za ratarstvo i povrtarstvo, Novi Sad
T2  - Zbornik radova Instituta za ratarstvo i povrtarstvo
T1  - Identification of breeding products and protection of breeders rights
T1  - Identifikacija genotipova biljnih vrsta i zaštita autorstva
EP  - 244
IS  - 33
SP  - 235
UR  - https://hdl.handle.net/21.15107/rcub_fiver_31
ER  - 

@article{
author = "Zlokolica, Marija Ž. and Milošević, Mirjana and Balešević-Tubić, Svetlana and Nikolić, Zorica and Galović, Vladislava and Vujaković, Milka",
year = "2000",
abstract = "Identification of plants species and their 'fingerprinting' are based on morphological, biochemical-genetic and molecular markers. The aim of this paper was to determine genetic basis of the breeding material from its source-population to its final breeding products, the varieties and hybrids. Using combination of several methods based on morphological, protein and DNK markers, the basic traits of genotypes such as: differentiability, uniformity and stability (DUS tests) were determined. These are the components necessary for identification of seed and its quality and protection of breeders rights. Among markers the AFLP method is advantageous being based on polymorphic fragments DNA and because of that the complete coverage of the genomes was achieved. By its combination with other methods the origin of genotype was determined at the international level and in accordance with UPOV regulations., Identifikacija biljnih vrsta, njihov fingerprinting se zasniva na morfološkim, biohemijsko-genetskim i molekularnim markerima. Cilj ovog rada je utvrđivanje genetske osnove selekcionog materijala, od njegovog izvornog-populacionog, do krajnjih proizvoda selekcije, sorti i hibrida. Kombinacijom više metoda, zasnovanih na morfološkim, proteinskim i DNK markerima, utvrđuju se osnovna svojstva posmatranih genotipova, kao što su: udaljenost, uniformnost i stabilnost (DUS testovi). Ovo su komponente neophodne za identifikaciju semena, njegovog kvaliteta i zaštitu autorskih prava. Među markerima prednost ima AFLP metoda, zasnovana na polimorfizmu fragmenata DNK, kojima se postiže velika pokrivenost genoma. Kombinacijom AFLP sa drugim metodama utvrđuje se originalnost genotipa i njegov identitet za datu vrstu, u međunarodnim razmerama, u skladu sa propisima UPOV.",
publisher = "Institut za ratarstvo i povrtarstvo, Novi Sad",
journal = "Zbornik radova Instituta za ratarstvo i povrtarstvo",
title = "Identification of breeding products and protection of breeders rights, Identifikacija genotipova biljnih vrsta i zaštita autorstva",
pages = "244-235",
number = "33",
url = "https://hdl.handle.net/21.15107/rcub_fiver_31"
}

Zlokolica, M. Ž., Milošević, M., Balešević-Tubić, S., Nikolić, Z., Galović, V.,& Vujaković, M.. (2000). Identification of breeding products and protection of breeders rights. in Zbornik radova Instituta za ratarstvo i povrtarstvo
Institut za ratarstvo i povrtarstvo, Novi Sad.(33), 235-244.
https://hdl.handle.net/21.15107/rcub_fiver_31

Zlokolica MŽ, Milošević M, Balešević-Tubić S, Nikolić Z, Galović V, Vujaković M. Identification of breeding products and protection of breeders rights. in Zbornik radova Instituta za ratarstvo i povrtarstvo. 2000;(33):235-244.
https://hdl.handle.net/21.15107/rcub_fiver_31 .

Zlokolica, Marija Ž., Milošević, Mirjana, Balešević-Tubić, Svetlana, Nikolić, Zorica, Galović, Vladislava, Vujaković, Milka, "Identification of breeding products and protection of breeders rights" in Zbornik radova Instituta za ratarstvo i povrtarstvo, no. 33 (2000):235-244,
https://hdl.handle.net/21.15107/rcub_fiver_31 .

TY  - CONF
AU  - Zlokolica, Marija Ž.
AU  - Milošević, Mirjana
AU  - Nikolić, Zorica
AU  - Grahovac, Mila
PY  - 1997
UR  - http://fiver.ifvcns.rs/handle/123456789/14
AB  - Isozymes as genetic markers were used for identification and genetic characterization of vegetable species such as cabbage, cauliflower, cucumber, carrot, tomato, and pepper. The following groups of marker systems were used: MDH, PGM, PHI and DIA with stable phenotypic expression. Certain genotypes were in the stage of seedling or seed. Polymorphism of the above mentioned systems was found in all the species analyzed which made possible the genetic identification of plant species and variability within them. These methods belonging to biochemical genetics were used for quality seed control. The results showed that, on the basis of these markers as direct gene products, certain pepper genotypes, activity and polymorphism (PHI, PGM, DIA) were found which pointed out genetically pure seed or some problems connected with quality traits.
PB  - International Society for Horticultural Science
C3  - Acta Horticulturae
T1  - The use of genetic markers for the identification and estimation of vegetable plant species
EP  - 81
SP  - 75
VL  - 462
DO  - 10.17660/actahortic.1997.462.8
ER  - 

@conference{
author = "Zlokolica, Marija Ž. and Milošević, Mirjana and Nikolić, Zorica and Grahovac, Mila",
year = "1997",
abstract = "Isozymes as genetic markers were used for identification and genetic characterization of vegetable species such as cabbage, cauliflower, cucumber, carrot, tomato, and pepper. The following groups of marker systems were used: MDH, PGM, PHI and DIA with stable phenotypic expression. Certain genotypes were in the stage of seedling or seed. Polymorphism of the above mentioned systems was found in all the species analyzed which made possible the genetic identification of plant species and variability within them. These methods belonging to biochemical genetics were used for quality seed control. The results showed that, on the basis of these markers as direct gene products, certain pepper genotypes, activity and polymorphism (PHI, PGM, DIA) were found which pointed out genetically pure seed or some problems connected with quality traits.",
publisher = "International Society for Horticultural Science",
journal = "Acta Horticulturae",
title = "The use of genetic markers for the identification and estimation of vegetable plant species",
pages = "81-75",
volume = "462",
doi = "10.17660/actahortic.1997.462.8"
}

Zlokolica, M. Ž., Milošević, M., Nikolić, Z.,& Grahovac, M.. (1997). The use of genetic markers for the identification and estimation of vegetable plant species. in Acta Horticulturae
International Society for Horticultural Science., 462, 75-81.
https://doi.org/10.17660/actahortic.1997.462.8

Zlokolica MŽ, Milošević M, Nikolić Z, Grahovac M. The use of genetic markers for the identification and estimation of vegetable plant species. in Acta Horticulturae. 1997;462:75-81.
doi:10.17660/actahortic.1997.462.8 .

Zlokolica, Marija Ž., Milošević, Mirjana, Nikolić, Zorica, Grahovac, Mila, "The use of genetic markers for the identification and estimation of vegetable plant species" in Acta Horticulturae, 462 (1997):75-81,
https://doi.org/10.17660/actahortic.1997.462.8 . .