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本文引用的文献

1
The place of asymmetric somatic hybridization in wheat breeding.不对称体细胞杂交在小麦育种中的地位。
Plant Cell Rep. 2014 Apr;33(4):595-603. doi: 10.1007/s00299-013-1552-9. Epub 2013 Dec 27.
2
Hfr-2, a wheat cytolytic toxin-like gene, is up-regulated by virulent Hessian fly larval feedingdouble dagger.Hfr-2,一个小麦细胞溶素样基因,受毒性大蜡螟幼虫取食上调双剑号。
Mol Plant Pathol. 2005 Jul 1;6(4):411-23. doi: 10.1111/j.1364-3703.2005.00289.x.
3
Patching gaps in plant genomes results in gene movement and erosion of colinearity.填补植物基因组中的缺口会导致基因转移和共线性的侵蚀。
Genome Res. 2010 Sep;20(9):1229-37. doi: 10.1101/gr.107284.110. Epub 2010 Jun 7.
4
Genome merger: from sequence rearrangements in triticale to their elimination in wheat-rye addition lines.基因组融合:从小黑麦中序列重排到小麦-黑麦附加系中的消除。
Theor Appl Genet. 2010 Aug;121(3):489-97. doi: 10.1007/s00122-010-1325-6. Epub 2010 Apr 10.
5
Non-additive gene regulation in a citrus allotetraploid somatic hybrid between C. reticulata Blanco and C. limon (L.) Burm.柑橘属二倍体杂种与其双亲间非加性基因调控
Heredity (Edinb). 2010 Sep;105(3):299-308. doi: 10.1038/hdy.2009.162. Epub 2009 Dec 2.
6
High frequency of HMW-GS sequence variation through somatic hybridization between Agropyron elongatum and common wheat.体细胞杂交在长穗偃麦草与普通小麦高分子量谷蛋白亚基序列变异中的高频发生。
Planta. 2010 Jan;231(2):245-50. doi: 10.1007/s00425-009-1040-1. Epub 2009 Nov 10.
7
Progress of chromosome engineering mediated by asymmetric somatic hybridization.不对称体细胞杂交介导的染色体工程研究进展
J Genet Genomics. 2009 Sep;36(9):547-56. doi: 10.1016/S1673-8527(08)60146-0.
8
Transpositional activation of mPing in an asymmetric nuclear somatic cell hybrid of rice and Zizania latifolia was accompanied by massive element loss.在水稻与菰的不对称核体细胞杂种中,mPing的转座激活伴随着大量元件丢失。
Theor Appl Genet. 2009 Nov;119(7):1325-33. doi: 10.1007/s00122-009-1137-8. Epub 2009 Aug 27.
9
Generation of high frequency of novel alleles of the high molecular weight glutenin in somatic hybridization between bread wheat and tall wheatgrass.面包小麦与高冰草体细胞杂交中高分子量谷蛋白新等位基因的高频产生
Theor Appl Genet. 2009 Apr;118(6):1193-8. doi: 10.1007/s00122-009-0973-x. Epub 2009 Feb 8.
10
Asymmetric somatic hybridization between wheat (Triticum aestivum) and Avena sativa L.小麦(普通小麦)与燕麦之间的不对称体细胞杂交
Sci China C Life Sci. 2003 Jun;46(3):243-52. doi: 10.1360/03yc9026.

小麦与高冰草体细胞杂种渐渗系中的遗传和表观遗传变化。

Genetic and epigenetic changes in somatic hybrid introgression lines between wheat and tall wheatgrass.

作者信息

Liu Shuwei, Li Fei, Kong Lina, Sun Yang, Qin Lumin, Chen Suiyun, Cui Haifeng, Huang Yinghua, Xia Guangmin

机构信息

The Key Laboratory of Plant Cell Engineering and Germplasm Innovation, Ministry of Education, School of Life Sciences, Shandong University, Jinan 250100, Peoples' Republic of China.

U.S. Department of Agriculture/Agricultural Research Service Plant Science Research Laboratory, Stillwater, Oklahoma 74075.

出版信息

Genetics. 2015 Apr;199(4):1035-45. doi: 10.1534/genetics.114.174094. Epub 2015 Feb 9.

DOI:10.1534/genetics.114.174094
PMID:25670745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4391570/
Abstract

Broad phenotypic variations were induced in derivatives of an asymmetric somatic hybridization of bread wheat (Triticum aestivum) and tall wheatgrass (Thinopyrum ponticum Podp); however, how these variations occurred was unknown. We explored the nature of these variations by cytogenetic assays and DNA profiling techniques to characterize six genetically stable somatic introgression lines. Karyotyping results show the six lines similar to their wheat parent, but GISH analysis identified the presence of a number of short introgressed tall wheatgrass chromatin segments. DNA profiling revealed many genetic and epigenetic differences, including sequences deletions, altered regulation of gene expression, changed patterns of cytosine methylation, and the reactivation of retrotransposons. Phenotypic variations appear to result from altered repetitive sequences combined with the epigenetic regulation of gene expression and/or retrotransposon transposition. The extent of genetic and epigenetic variation due to the maintenance of parent wheat cells in tissue culture was assessed and shown to be considerably lower than had been induced in the introgression lines. Asymmetric somatic hybridization provides appropriate material to explore the nature of the genetic and epigenetic variations induced by genomic shock.

摘要

在面包小麦(Triticum aestivum)与高冰草(Thinopyrum ponticum Podp)的不对称体细胞杂交后代中诱导出了广泛的表型变异;然而,这些变异是如何发生的尚不清楚。我们通过细胞遗传学分析和DNA谱技术探索了这些变异的本质,以鉴定六个遗传稳定的体细胞渐渗系。核型分析结果显示这六个系与其小麦亲本相似,但基因组原位杂交(GISH)分析确定存在一些高冰草的短渐渗染色质片段。DNA谱分析揭示了许多遗传和表观遗传差异,包括序列缺失、基因表达调控改变、胞嘧啶甲基化模式改变以及反转录转座子的重新激活。表型变异似乎是由重复序列改变与基因表达的表观遗传调控和/或反转录转座子转座共同导致的。评估了由于亲本小麦细胞在组织培养中维持而引起的遗传和表观遗传变异程度,结果表明其远低于渐渗系中诱导产生的变异程度。不对称体细胞杂交为探索基因组冲击诱导的遗传和表观遗传变异的本质提供了合适的材料。