Primena molekularnih markera u oplemenjivanju jabuke
Application of molecular markers in apple breeding
Abstract
Jabuka (Malus x domestica Borkh.) je ekonomski najznačajnija vrsta roda Malus Miller. Po proizvodnji, prometu i potrošnji zauzima prvo mesto među listopadnim voćem i treće medu svim vrstama voćaka u svetu. Oplemenjivanje jabuke zauzima značajno mesto u programima više naučnih institucija širom sveta. Zahvaljujući tom radu jabuka je vrsta sa najviše opisanih monogenskih karaktera: 76 gena, koji kontrolišu morfološke osobine i otpornost prema bolestima i štetočinama, i 69 gena koji kodiraju enzime. Razvoj molekularnih markera (RFLPs, AFLPs, SCARs i SSRs) omogućio je mapiranje genoma jabuke i formiranje nekoliko saturisanih genetičkih mapa na kojima je lociran veliki broj gena koji determinišu osobine esencijalno važne u daljem unapređenju sortimenta jabuke. Markeri u blizini ovih gena igraju značajnu ulogu u izboru roditeljskih parova, selekciji sejanaca koji nose pozitivne osobine i posebno su značajni u detektovanju recesivnih karaktera kao što je, na primer, besemenost. Markeri su omo...gućili i predselekciju za poligenski regulisane kvantitativne osobine. Poslednjih godina značajna pažnja je posvećena proučavanju biohemijskih i fizioloških procesa uključenih u determinaciju značajnih fenotipskih osobina jabuke, npr. dozrevanje i trajašnost ploda jabuke.
Apple is economically the most important species of genus Malus Miller. In respect of production, trade and consumption, it ranks first among deciduous fruit and third on a global scale among all fruit species. Apple breeding is carried out on a large scale in several scientific institutes throughout the world. Due to this activity, apple is a fruit species with the highest number of described monogenic traits; 76 genes, encoding morphological traits, pest and disease resistance, as well as 69 genes encoding enzymes. The development of molecular markers (RFLPs, AFLPs, SCARs and SSRs) has allowed the mapping of the apple genome and the development of several saturated genetic maps, to which genes controlling important traits are assigned. Markers flanking these genes not only play an important role in selecting parental combinations and seedlings with positive traits, but they are also particularly important in detecting recessive traits, such as seedless fruit. In addition they enable ...pre-selection for polygenic quantitative traits. In recent years, particular attention has been paid to biochemical and physiological processes involved in the pathway of important traits e.g., ripening and the storage capability of apple fruit.
Keywords:
QTL / marker / genetic map / appleSource:
Genetika-Belgrade, 2010, 42, 2, 359-375Publisher:
- Društvo genetičara Srbije, Beograd
Funding / projects:
- Stvaranje i proučavanje novih genotipova voćaka i uvođenje savremenih biotehnologija gajenja i prerade voća (RS-MESTD-MPN2006-2010-20013)
DOI: 10.2298/GENSR1002359M
ISSN: 0534-0012
WoS: 000281826000016
Scopus: 2-s2.0-79957590119
Collections
Institution/Community
Institut za voćarstvoTY - JOUR AU - Marić, Slađana AU - Lukić, Milan AU - Cerović, Radosav AU - Mitrović, Milisav AU - Bošković, Radovan PY - 2010 UR - https://refri.institut-cacak.org/handle/123456789/176 AB - Jabuka (Malus x domestica Borkh.) je ekonomski najznačajnija vrsta roda Malus Miller. Po proizvodnji, prometu i potrošnji zauzima prvo mesto među listopadnim voćem i treće medu svim vrstama voćaka u svetu. Oplemenjivanje jabuke zauzima značajno mesto u programima više naučnih institucija širom sveta. Zahvaljujući tom radu jabuka je vrsta sa najviše opisanih monogenskih karaktera: 76 gena, koji kontrolišu morfološke osobine i otpornost prema bolestima i štetočinama, i 69 gena koji kodiraju enzime. Razvoj molekularnih markera (RFLPs, AFLPs, SCARs i SSRs) omogućio je mapiranje genoma jabuke i formiranje nekoliko saturisanih genetičkih mapa na kojima je lociran veliki broj gena koji determinišu osobine esencijalno važne u daljem unapređenju sortimenta jabuke. Markeri u blizini ovih gena igraju značajnu ulogu u izboru roditeljskih parova, selekciji sejanaca koji nose pozitivne osobine i posebno su značajni u detektovanju recesivnih karaktera kao što je, na primer, besemenost. Markeri su omogućili i predselekciju za poligenski regulisane kvantitativne osobine. Poslednjih godina značajna pažnja je posvećena proučavanju biohemijskih i fizioloških procesa uključenih u determinaciju značajnih fenotipskih osobina jabuke, npr. dozrevanje i trajašnost ploda jabuke. AB - Apple is economically the most important species of genus Malus Miller. In respect of production, trade and consumption, it ranks first among deciduous fruit and third on a global scale among all fruit species. Apple breeding is carried out on a large scale in several scientific institutes throughout the world. Due to this activity, apple is a fruit species with the highest number of described monogenic traits; 76 genes, encoding morphological traits, pest and disease resistance, as well as 69 genes encoding enzymes. The development of molecular markers (RFLPs, AFLPs, SCARs and SSRs) has allowed the mapping of the apple genome and the development of several saturated genetic maps, to which genes controlling important traits are assigned. Markers flanking these genes not only play an important role in selecting parental combinations and seedlings with positive traits, but they are also particularly important in detecting recessive traits, such as seedless fruit. In addition they enable pre-selection for polygenic quantitative traits. In recent years, particular attention has been paid to biochemical and physiological processes involved in the pathway of important traits e.g., ripening and the storage capability of apple fruit. PB - Društvo genetičara Srbije, Beograd T2 - Genetika-Belgrade T1 - Primena molekularnih markera u oplemenjivanju jabuke T1 - Application of molecular markers in apple breeding EP - 375 IS - 2 SP - 359 VL - 42 DO - 10.2298/GENSR1002359M UR - conv_1389 ER -
@article{ author = "Marić, Slađana and Lukić, Milan and Cerović, Radosav and Mitrović, Milisav and Bošković, Radovan", year = "2010", abstract = "Jabuka (Malus x domestica Borkh.) je ekonomski najznačajnija vrsta roda Malus Miller. Po proizvodnji, prometu i potrošnji zauzima prvo mesto među listopadnim voćem i treće medu svim vrstama voćaka u svetu. Oplemenjivanje jabuke zauzima značajno mesto u programima više naučnih institucija širom sveta. Zahvaljujući tom radu jabuka je vrsta sa najviše opisanih monogenskih karaktera: 76 gena, koji kontrolišu morfološke osobine i otpornost prema bolestima i štetočinama, i 69 gena koji kodiraju enzime. Razvoj molekularnih markera (RFLPs, AFLPs, SCARs i SSRs) omogućio je mapiranje genoma jabuke i formiranje nekoliko saturisanih genetičkih mapa na kojima je lociran veliki broj gena koji determinišu osobine esencijalno važne u daljem unapređenju sortimenta jabuke. Markeri u blizini ovih gena igraju značajnu ulogu u izboru roditeljskih parova, selekciji sejanaca koji nose pozitivne osobine i posebno su značajni u detektovanju recesivnih karaktera kao što je, na primer, besemenost. Markeri su omogućili i predselekciju za poligenski regulisane kvantitativne osobine. Poslednjih godina značajna pažnja je posvećena proučavanju biohemijskih i fizioloških procesa uključenih u determinaciju značajnih fenotipskih osobina jabuke, npr. dozrevanje i trajašnost ploda jabuke., Apple is economically the most important species of genus Malus Miller. In respect of production, trade and consumption, it ranks first among deciduous fruit and third on a global scale among all fruit species. Apple breeding is carried out on a large scale in several scientific institutes throughout the world. Due to this activity, apple is a fruit species with the highest number of described monogenic traits; 76 genes, encoding morphological traits, pest and disease resistance, as well as 69 genes encoding enzymes. The development of molecular markers (RFLPs, AFLPs, SCARs and SSRs) has allowed the mapping of the apple genome and the development of several saturated genetic maps, to which genes controlling important traits are assigned. Markers flanking these genes not only play an important role in selecting parental combinations and seedlings with positive traits, but they are also particularly important in detecting recessive traits, such as seedless fruit. In addition they enable pre-selection for polygenic quantitative traits. In recent years, particular attention has been paid to biochemical and physiological processes involved in the pathway of important traits e.g., ripening and the storage capability of apple fruit.", publisher = "Društvo genetičara Srbije, Beograd", journal = "Genetika-Belgrade", title = "Primena molekularnih markera u oplemenjivanju jabuke, Application of molecular markers in apple breeding", pages = "375-359", number = "2", volume = "42", doi = "10.2298/GENSR1002359M", url = "conv_1389" }
Marić, S., Lukić, M., Cerović, R., Mitrović, M.,& Bošković, R.. (2010). Primena molekularnih markera u oplemenjivanju jabuke. in Genetika-Belgrade Društvo genetičara Srbije, Beograd., 42(2), 359-375. https://doi.org/10.2298/GENSR1002359M conv_1389
Marić S, Lukić M, Cerović R, Mitrović M, Bošković R. Primena molekularnih markera u oplemenjivanju jabuke. in Genetika-Belgrade. 2010;42(2):359-375. doi:10.2298/GENSR1002359M conv_1389 .
Marić, Slađana, Lukić, Milan, Cerović, Radosav, Mitrović, Milisav, Bošković, Radovan, "Primena molekularnih markera u oplemenjivanju jabuke" in Genetika-Belgrade, 42, no. 2 (2010):359-375, https://doi.org/10.2298/GENSR1002359M ., conv_1389 .