Research Progress in Alien Plant Additional Lines(PDF)

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2012年19期

Page:

195-199

Research Field:

Publishing date:

Info

Title:

Research Progress in Alien Plant Additional Lines

Author(s):

WANG Feng¹; DING Yun-hua¹; LI Cheng-qiong ²; JIAN Yuan-cai¹

1.Centre of Vegetable Research，Beijing Academy of Agricultural and Forestry Sciences，Beijing 100097；

2.Southeast Institute of the University of Vegetables，Chongqing 400715

Keywords:

plant hybridization; alien additional lines; chromosome; genome

PACS:

Q 942

DOI:

-

Abstract:

In higher plants to interspecific hibridization and backcrossing to transfer useful genes from one species to another species,alien additional lines is a different source or a pair of chromosomes attached to the genome of a species strain.Depending on the number of additional alien chromosome could be divided into single alien addition，disomic and multiple alien addition lines.One single and twin alien addition lines of research and the use of higher value.Alien addition lines of genetic research and an important basis for chromosome engineering breeding material，can be used for homologous chromosome pairing in plant cell，geneticmapping，molecular markers,genetics cloning，genome interaction and expression of the study，to clarify the genomic structure and an effective tool for gene transfer.This article describes the characteristics of different source additional lines(single and disomic alien additional lines)，cultivation and identification.Combination of biological development process,application and development of its prospects had been described.

References:

[1]李树贤.植物染色体与遗传育种[M].北京:科学出版社,2008.

[2]Leighty C E,Taylor J W.“Hairy neck”wheat segregates from wheat-rye hybrids[J].J Agris Re,1924,28:576.

[3]Tan G X,Jin H J,Li G，et al.Productionand characterization of a complete set of individual chro-mosome additions from Oryza officinalis to Oryza sativausing RFLP and GISH analyses[J].Theor Appl Genet,2005,111:1585-1595.

[4]Littlejohn G M,Pienaar Rde V.Thinopytumdistichum additionlines：production，morphological and cytological characterization of disomic addition lines and stable addition substitution line[J].Theor Appl Genet,1995,90：33-42.

[5]Dvorak J.Genome relationships among Elitrigia elongate.E.stipifolia,“E，elongate 4x”,E,caespitosa,E,intermedia and “E，elongate 10x”[J].Canadian Journal of Genetics and Cyaogenetics,1981,23:481-492.

[6]李立会,杨欣明,周荣华.小麦-冰草异源附加系的创建[J].遗传学报,1998,25(6):538-544.

[7]陈新宏,刘淑全,赵继新,等.普通小麦-大麦异附加系的分子生物学技术鉴定[J].西北农林科技大学学报(自然科学版),2003,31(6):5-8.

[8]高海波,陈孝,陈明.小麦-中间偃麦草异附加系Z4的外援染色质的分子标记.[J].西南农业学报,2005,18(5):634-635.

[9]任艳蕊,张成合,申二巧,等.芥蓝-菜薹种间三倍体回交子代染色体数鉴定及单体异附加系的选育[J].园艺学报,2010,37(2):213-220.

[10]Chetelat R T,Rick C M,Cisneros P，et al.Identification,transmission，and cytological behavior of Solanum lycopersicoidesDun.monosomic alien addition lines in tomato[J].Genome,1998,41:40-50.

[11]O’Mara J G.Cytogenetic studies on Tritical.1.A method for determining the effects of individual Secale chromosomes on Tritieum[J].Geneties,1940,25:401-408.

[12]Chen B Y ，Cheng B F,Jorgensen R B.Production and cytogenetics of Brassica campestris alboglabrachromsome addition lines[J].Theor Appl Genet,1997,94:633-640.

[13]Jahier J,Chevre A M,Tanguy A M，et al.Extration of disomic addition lines Brassica napus-B.nigra[J].Genome,1989,32:408-413.

[14]李再云.甘蓝型油菜与诸葛菜属间杂交新材料的染色体行为及其进化意义[J].自然科学进展,2003,3(9):43-48.

[15]魏文辉,张苏锋,李均.白芥×甘蓝F1代及BC1代单体异附加系的GISH分析[J].科学通报,2006,51:2490-2494.

[16]Peterka H,Budahn H,Schrader O.et al.Nematoderesistance in a disomic rapeseed-radish chromosome addition line.InVollmann J,Grausgruber N,Ruckenbauer P.Genetic Variation for Plant Breeding.Proceedings of the 17thEUCARPIA General Congress Vienna[C].BOUK-University of Natural Resources and Applied Life Sciences,2004:333.

[17]刘炜,申书兴,王彦华,张成合.大白菜-甘蓝异附加系的获得与鉴定[J].园艺学报,2008,35(2):207-212.

[18]桑丹,刘畅,陈雪平，等.大白菜-结球甘蓝5号和8号单体异附加系的筛选和鉴定[J].植物遗传资源学报,2008,9(4)：517-520.

[19]张玉成.结球甘蓝一大白菜部分单体异附加系的创建[D].石家庄:河北农业大学,2008.

[20]李利军,丁云花,李成琼,等.甘蓝型油菜附加系与芸薹属A基因组杂交F1的获得与鉴定[J].中国农学通报,2009,5(13):23-27.

[21]Lukaszewski A J.A Comparison of several approaches in the development of disomic alien addition lines of wheat proceedings of the 7 International Wheat Genentics Symposium[C].Cambridge,UK,1988:363-368.

[22]陈劲枫,罗向东,钱春桃.黄瓜单体异附加系的筛选与观察[J].园艺学报,2003,30(6):725-727.

[23]李倩,丁云花,李成琼,等.甘蓝与甘蓝型油菜-萝卜d染色体附加系杂交F1代的获得与鉴定[J].西南大学学报(自然科学版),2008,30(8):29-30.

[24]孟金陵.芸蔓属植物远源杂交不亲和性的研究进展[J].中国油料,1987(4):71-77.

[25]栗根义,高睦枪,杨建平.白菜-甘蓝染色体附加系的性状遗传[J].华北农学报,1996,11(2):96-100.

[26]翁跃进,董玉琛.普通小麦-顶芒山羊草异附加系的创建与鉴定[J].作物学报,1995,21(1):39-44.

[27]张永泰,李爱民,陆莉.通过甘蓝型油菜和白芥属间杂种后代的小孢子培养获得二体异附加系[J].作物学报,2006,32(11):1764-1766.

[28]Melchers G,Sacristán M D,Holder A A.S,omatic hybrid plants of potato and tomato regenerated from fused protoplasts[J].Carlsberg Res Commun,1978,43:203-218.

[29]Sakai T,Liu H J,Iwabuchi M，et al.Introduction of a gene from fertility restored radish(RaPhanussatirus) into Brassica napusby fusion of X-irridiatted protoplasts from a cytopiasmic male-sterile hybrid of B.napus[J].Theor Appl Genet,1996,930:373-379.

Memo

Memo:

-

Common functions