DOI: https://doi.org/10.30835/2413-7510.2017.104885

Виявлення генетичного поліморфізму оригінальної стерильної форми ріпаку озимого за допомогою ISSR-маркерів

Н. А. Глухова, Г. Є. Акініна, Я. Ю. Шарипіна, В. С. Лютенко

Анотація


У статті висвітлено результати вивчення оригінальної стерильної форми ріпака озимого селекції Інститута рослинництва ім. В. Я. Юр’єва НААН. Проведено ПЛР-аналіз за ІSSR маркерами. Доведено генетичну відмінність стерильності оригінальної форми від стерильності Оgura та Polіma

Ключові слова


ріпак озимий; стерильна форма; праймер; ISSR-маркер; генетична відстань; індекс Шенона; бутстреп-аналіз

Повний текст:

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Посилання


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Пристатейна бібліографія ГОСТ


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Banga S. S., Banga S. K. Hybrid cultivar development (ed. vol.). Co-publication: Springer Verlag-Berlin, Narosa Publishing House, New Delhi-London, 1998. P. 401-430.

Hiroshi Yamagishi, Shripad R. Bhat Cytoplasmic male sterility in Brassicaceae crops. Breed Science. 2014. № 64(1). Р. 38–47.

Ogura H. Studies on the new male-sterility in japanese radish,with special reference to the utilization of this sterility towards thepractical raising of hybrid seeds. Memoirs of the Faculty of Agriculture, Kagoshima University. Kagoshima, Japan, Feb. 1968. Vol. VI, № 2. P. 39-78.

Thompson K. F. Cytoplasmic Male-sterility in oil-seed rape. Heredity. 1972. № 29. Р. 253–257. DOI:10.1038/sj.hdy.6800815.

Stiewe G. et al. Establishing Cytoplasmic male sterility in brassica napus by mitochondrial recombination with B. tournefortii. Plant Breeding. 1994. № 113. Р. 294-304. DOI: 0.1111/pbr.12412.

Janeja H. S. et al. Alloplasmic male sterile Brassica napus with Enarthrocarpus lyratus cytoplasm: introgression and molecular mapping of an E. lyratus chromosome segment carrying a fertility restoring gene. Genome. 2003. №46(5). P. 792-797.

Gundimeda H. R., Prakash Shyam, Shivanna K. R. Intergeneric hybrids between Enarthrocarpus lyratus, a wild species, and crop brassicas. Theoretic and Applied Genetics. 1992. №83. P. 655-662. DOI:10.1007/BF00226912. 

Zhegong Fan, Stefansson B. R. Influence of temperature on sterility of two cytoplasmic male-sterility systems in rape (Brassica napus L.). Canadian Journal of Plant Science. 1986. № 66. Р. 221-227.

Bartkowiak-Broda I. CMS POLIMA CO1995 A11: F1 Hybrid technology, URL: http://gcirc.org/fileadmin/documents/Proceedings/IRC1995Cambridgevol1/CO1995A11.pdf

Frauen Martin,  Paulmann Werner Breeding of hybrid varieties of winter oilseed rape based on the MSL-system. The Rejional Institute online publishing, URL: http://www.regional.org.au/au/gcirc/4/258.htm.

Biology of Brassica Coenospecies. Editor C. Gómez-Campo. Co-publication: Elsevier Science. 1999. 478 p.

KWS Suisse SA - OGURA Hybridsystem, URL: www.kws-swiss.ch/.../OGURA_Hybridsystem

Chittaranjan Kole (Ed.) Genome mapping and molecular breeding in plants: oilseeds. Co-publication: Springer Verlag-Berlin. 2007. P. 64.

 Zhao H. X.  et al. Identifіcation of cytoplasm types in rapeseed (Brassica napus L.) accessions by a multiplex PCR assay. Theoretical and Applied Genetics. 2010.  №  121 (4).  Р. 643–650.

Grelon M. et al. Ogura cytoplasmic male‐sterility (CMS)‐associated orf138 is translated into a mitochondrial membrane polypeptide in male‐sterile Brassica cybrids. Molecular and General Genetics. 1994. № 243. Р. 540–547. DOI:10.1007/BF00284202.

Brown G. G. Unique aspects of cytoplasmic male sterility and fertility restoration in Brassica napus. The Journal Неrеdity. 1999. № 90 (3). Р. 351-356.DOI:10.1093/jhered/esv127.

Gurjeet S., Banga S. S. Indetification of new sterility maintainers for Polima CMS system in Brassica napus L. Proceedings of 9th International Rapeseed Congress. Cambridge. 1995. Vol 1. A13. Р. 32-34.

Патент № А 2016 13671 Спосіб створення стерильних форм / Глухова Н. А., Моргун В. В., Богуславский Р. Л. Заявник Інститут рослинництва ім. В. Я. Юр'єва НААН, заявлено 30.12.2016.

Праймери University of British Columbia. http://download.bioon.com.cn/upload /month_0812/20081213_3e0a387c764331d0978dRPKoJqSzhDvl.attach.pdf.

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Zhang Xian, Zhang Ying–jun, Yan Rong Genetic variation of whiteclover (Trifolium repens L.) collections from Chinadetected by morphological traits, RAPD and SSR. African Journal of Biotechnology. 2010. Vol. 9, № 21. P. 3032–3041.

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