Literature DB >> 20204495

Functional centromeres in soybean include two distinct tandem repeats and a retrotransposon.

Ahmet L Tek1, Kazunari Kashihara, Minoru Murata, Kiyotaka Nagaki.   

Abstract

The centromere as a kinetochore assembly site is fundamental to the partitioning of genetic material during cell division. In order to determine the functional centromeres of soybean, we characterized the soybean centromere-specific histone H3 (GmCENH3) protein and developed an antibody against the N-terminal end. Using this antibody, we cloned centromere-associated DNA sequences by chromatin immunoprecipitation. Our analyses indicate that soybean centromeres are composed of two distinct satellite repeats (GmCent-1 and GmCent-4) and retrotransposon-related sequences (GmCR). The possible allopolyploid origin of the soybean genome is discussed in view of the centromeric satellite sequences present.

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Year:  2010        PMID: 20204495     DOI: 10.1007/s10577-010-9119-x

Source DB:  PubMed          Journal:  Chromosome Res        ISSN: 0967-3849            Impact factor:   5.239


  49 in total

Review 1.  Determining centromere identity: cyclical stories and forking paths.

Authors:  B A Sullivan; M D Blower; G H Karpen
Journal:  Nat Rev Genet       Date:  2001-08       Impact factor: 53.242

Review 2.  A molecular view of plant centromeres.

Authors:  Jiming Jiang; James A Birchler; Wayne A Parrott; R Kelly Dawe
Journal:  Trends Plant Sci       Date:  2003-12       Impact factor: 18.313

Review 3.  Phylogenomics of the nucleosome.

Authors:  Harmit S Malik; Steven Henikoff
Journal:  Nat Struct Biol       Date:  2003-11

4.  Heterochromatic deposition of centromeric histone H3-like proteins.

Authors:  S Henikoff; K Ahmad; J S Platero; B van Steensel
Journal:  Proc Natl Acad Sci U S A       Date:  2000-01-18       Impact factor: 11.205

5.  Chromatin immunoprecipitation cloning reveals rapid evolutionary patterns of centromeric DNA in Oryza species.

Authors:  Hye-Ran Lee; Wenli Zhang; Tim Langdon; Weiwei Jin; Huihuang Yan; Zhukuan Cheng; Jiming Jiang
Journal:  Proc Natl Acad Sci U S A       Date:  2005-07-22       Impact factor: 11.205

6.  Genome duplication in soybean (Glycine subgenus soja).

Authors:  R C Shoemaker; K Polzin; J Labate; J Specht; E C Brummer; T Olson; N Young; V Concibido; J Wilcox; J P Tamulonis; G Kochert; H R Boerma
Journal:  Genetics       Date:  1996-09       Impact factor: 4.562

7.  Visualization of diffuse centromeres with centromere-specific histone H3 in the holocentric plant Luzula nivea.

Authors:  Kiyotaka Nagaki; Kazunari Kashihara; Minoru Murata
Journal:  Plant Cell       Date:  2005-06-03       Impact factor: 11.277

8.  The genomic relationship between Glycine max (L.) Merr. and G. soja Sieb. and Zucc. as revealed by pachytene chromosome analysis.

Authors:  R J Singh; T Hymowitz
Journal:  Theor Appl Genet       Date:  1988-11       Impact factor: 5.699

9.  Divergence in centromere structure distinguishes related genomes in Coix lacryma-jobi and its wild relative.

Authors:  Yonghua Han; Guixiang Wang; Zhao Liu; Jinhua Liu; Wei Yue; Rentao Song; Xueyong Zhang; Weiwei Jin
Journal:  Chromosoma       Date:  2009-09-08       Impact factor: 4.316

10.  Differential localization of the centromere-specific proteins in the major centromeric satellite of Arabidopsis thaliana.

Authors:  Fukashi Shibata; Minoru Murata
Journal:  J Cell Sci       Date:  2004-05-25       Impact factor: 5.285
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  25 in total

1.  Isolation of centromeric-tandem repetitive DNA sequences by chromatin affinity purification using a HaloTag7-fused centromere-specific histone H3 in tobacco.

Authors:  Kiyotaka Nagaki; Fukashi Shibata; Asaka Kanatani; Kazunari Kashihara; Minoru Murata
Journal:  Plant Cell Rep       Date:  2011-12-07       Impact factor: 4.570

2.  Functional centromeres in Astragalus sinicus include a compact centromere-specific histone H3 and a 20-bp tandem repeat.

Authors:  Ahmet L Tek; Kazunari Kashihara; Minoru Murata; Kiyotaka Nagaki
Journal:  Chromosome Res       Date:  2011-11-08       Impact factor: 5.239

3.  Immuno-cytogenetic manifestation of epigenetic chromatin modification marks in plants.

Authors:  Santosh Kumar Sharma; Maki Yamamoto; Yasuhiko Mukai
Journal:  Planta       Date:  2014-12-25       Impact factor: 4.116

4.  High allelic diversity of the centromere-specific histone H3 (CENH3) in the legume sainfoin (Onobrychis viciifolia).

Authors:  Ahmet L Tek; Sevim D Kara Öztürk
Journal:  Mol Biol Rep       Date:  2020-10-26       Impact factor: 2.316

5.  Sequence organization and evolutionary dynamics of Brachypodium-specific centromere retrotransposons.

Authors:  L L Qi; J J Wu; B Friebe; C Qian; Y Q Gu; D L Fu; B S Gill
Journal:  Chromosome Res       Date:  2013-08-17       Impact factor: 5.239

6.  Identification of the centromeric repeat in the threespine stickleback fish (Gasterosteus aculeatus).

Authors:  Jennifer N Cech; Catherine L Peichel
Journal:  Chromosome Res       Date:  2015-09-30       Impact factor: 5.239

7.  Coexistence of NtCENH3 and two retrotransposons in tobacco centromeres.

Authors:  Kiyotaka Nagaki; Fukashi Shibata; Go Suzuki; Asaka Kanatani; Souichi Ozaki; Akiko Hironaka; Kazunari Kashihara; Minoru Murata
Journal:  Chromosome Res       Date:  2011-05-28       Impact factor: 5.239

8.  Centromere inactivation on a neo-Y fusion chromosome in threespine stickleback fish.

Authors:  Jennifer N Cech; Catherine L Peichel
Journal:  Chromosome Res       Date:  2016-08-23       Impact factor: 5.239

9.  The cotton centromere contains a Ty3-gypsy-like LTR retroelement.

Authors:  Song Luo; Jennifer Mach; Bradley Abramson; Rolando Ramirez; Robert Schurr; Pierluigi Barone; Gregory Copenhaver; Otto Folkerts
Journal:  PLoS One       Date:  2012-04-19       Impact factor: 3.240

10.  Chromosome dynamics visualized with an anti-centromeric histone H3 antibody in Allium.

Authors:  Kiyotaka Nagaki; Maki Yamamoto; Naoki Yamaji; Yasuhiko Mukai; Minoru Murata
Journal:  PLoS One       Date:  2012-12-07       Impact factor: 3.240
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