State-of-the-art and novel developments of in vivo haploid technologies

被引：77

作者：

Kalinowska, Kamila ^{[1
]}

Chamas, Sindy ^{[2
]}

Unkel, Katharina ^{[3
]}

Demidov, Dmitri ^{[2
]}

Lermontova, Inna ^{[2
]}

Dresselhaus, Thomas ^{[1
]}

Kumlehn, Jochen ^{[2
]}

Dunemann, Frank ^{[3
]}

Houben, Andreas ^{[2
]}

机构：

[1] Univ Regensburg, Biochem Zentrum Regensburg, Univ Str 31, D-93053 Regensburg, Germany

[2] Leibniz Inst Plant Genet & Crop Plant Res IPK Gas, Corrensstr 3, D-06466 Stadt Seeland, Germany

[3] JKI, Fed Res Ctr Cultivated Plants, Inst Breeding Res Hort Crops, Erwin Baur Str 27, D-06484 Quedlinburg, Germany

来源：

THEORETICAL AND APPLIED GENETICS | 2019年 / 132卷 / 03期

关键词：

UNIPARENTAL CHROMOSOME ELIMINATION; HORDEUM-VULGARE-L; HISTONE H3; FUNCTIONAL CENTROMERES; GENETIC-CONTROL; EMBRYO SAC; MAIZE; INDUCTION; PHOSPHOLIPASE; CROSSES;

D O I：

10.1007/s00122-018-3261-9

中图分类号：

S3 [农学（农艺学）];

学科分类号：

0901 ;

摘要：

The ability to generate (doubled) haploid plants significantly accelerates the crop breeding process. Haploids have been induced mainly through the generation of plants from cultivated gametophic (haploid) cells and tissues, i.e., in vitro haploid technologies, or through the selective loss of a parental chromosome set upon inter- or intraspecific hybridization. Here, we focus our reviewon the mechanisms responsible for the in vivo formation of haploids in the context of inter- and intraspecific hybridization. The application of a modified CENH3 for uniparental genome elimination, the IG1 system used for paternal as well as the BBM-like and the patatin-like phospholipase essential for maternal haploidy induction are discussed in detail.

引用

页码：593 / 605

页数：13

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