BioMed Central | Articles which cite: Adaptive evolution of centromere proteins in plants and animals.

Log on / register
Feedback | Support | My details

home journals A-Z subject areas advanced search authors reviewers libraries about my BioMed Central

Adaptive evolution of centromere proteins in plants and animals.
Talbert PB, Bryson TD, Henikoff S
J Biol 2004, 3:18
[Full text] [PubMed] [Related articles] [F1000 Biology] [Cited on BioMed Central]

printer friendly

to [Help]

PubMed Central articles that cite the above article:

1.	Positive selection drives the evolution of rhino, a member of the heterochromatin protein 1 family in Drosophila. Vermaak D, Henikoff S, Malik HS PLoS Genet 2005 Jul, 1:96-108 [PubMed Central] [PubMed] [Related articles]
2.	Chromatin immunoprecipitation cloning reveals rapid evolutionary patterns of centromeric DNA in Oryza species. Lee HR, Zhang W, Langdon T, Jin W, Yan H, Cheng Z, Jiang J Proc Natl Acad Sci U S A 2005 Aug 16, 102:11793-8 [PubMed Central] [PubMed] [Related articles]
3.	Genetic interactions of separase regulatory subunits reveal the diverged Drosophila Cenp-C homolog. Heeger S, Leismann O, Schittenhelm R, Schraidt O, Heidmann S, Lehner CF Genes Dev 2005 Sep 1, 19:2041-53 [PubMed Central] [PubMed] [Related articles]
4.	Dynamic evolution at pericentromeres. Hall AE, Kettler GC, Preuss D Genome Res 2006 Mar, 16:355-64 [PubMed Central] [PubMed] [Related articles]
5.	Human centromeric alphoid domains are periodically homogenized so that they vary substantially between homologues. Mechanism and implications for centromere functioning. Roizès G Nucleic Acids Res 2006, 34:1912-24 [PubMed Central] [PubMed] [Related articles]
6.	Satellite DNA from the Y chromosome of the malaria vector Anopheles gambiae. Krzywinski J, Sangaré D, Besansky NJ Genetics 2005 Jan, 169:185-96 [PubMed Central] [PubMed] [Related articles]
7.	Differential rates of local and global homogenization in centromere satellites from Arabidopsis relatives. Hall SE, Luo S, Hall AE, Preuss D Genetics 2005 Aug, 170:1913-27 [PubMed Central] [PubMed] [Related articles]
8.	Centromeric histone H3 is essential for vegetative cell division and for DNA elimination during conjugation in Tetrahymena thermophila. Cui B, Gorovsky MA Mol Cell Biol 2006 Jun, 26:4499-510 [PubMed Central] [PubMed] [Related articles]
9.	Phylogenetic analysis of fungal centromere H3 proteins. Baker RE, Rogers K Genetics 2006 Nov, 174:1481-92 [PubMed Central] [PubMed] [Related articles]
10.	Duplication of centromeric histone H3 (HTR12) gene in Arabidopsis halleri and A. lyrata, plant species with multiple centromeric satellite sequences. Kawabe A, Nasuda S, Charlesworth D Genetics 2006 Dec, 174:2021-32 [PubMed Central] [PubMed] [Related articles]
11.	Spatial organization of a ubiquitous eukaryotic kinetochore protein network in Drosophila chromosomes. Schittenhelm RB, Heeger S, Althoff F, Walter A, Heidmann S, Mechtler K, Lehner CF Chromosoma 2007 Aug, 116:385-402 [PubMed Central] [PubMed] [Related articles]
12.	Visualization of diffuse centromeres with centromere-specific histone H3 in the holocentric plant Luzula nivea. Nagaki K, Kashihara K, Murata M Plant Cell 2005 Jul, 17:1886-93 [PubMed Central] [PubMed] [Related articles]
13.	Runs of homozygosity reveal highly penetrant recessive loci in schizophrenia. Lencz T, Lambert C, DeRosse P, Burdick KE, Morgan TV, Kane JM, Kucherlapati R, Malhotra AK Proc Natl Acad Sci U S A 2007 Dec 11, 104:19942-7 [PubMed Central] [PubMed] [Related articles]
14.	Genomic instability within centromeres of interspecific marsupial hybrids. Metcalfe CJ, Bulazel KV, Ferreri GC, Schroeder-Reiter E, Wanner G, Rens W, Obergfell C, Eldridge MD, O'Neill RJ Genetics 2007 Dec, 177:2507-17 [PubMed Central] [PubMed] [Related articles]
15.	Structural and functional dissection of Mif2p, a conserved DNA-binding kinetochore protein. Cohen RL, Espelin CW, De Wulf P, Sorger PK, Harrison SC, Simons KT Mol Biol Cell 2008 Oct, 19:4480-91 [PubMed Central] [PubMed] [Related articles]
16.	The trouble with sliding windows and the selective pressure in BRCA1. Schmid K, Yang Z PLoS One 2008, 3:e3746 [PubMed Central] [PubMed] [Related articles]
17.	Rapid evolution of Cse4p-rich centromeric DNA sequences in closely related pathogenic yeasts, Candida albicans and Candida dubliniensis. Padmanabhan S, Thakur J, Siddharthan R, Sanyal K Proc Natl Acad Sci U S A 2008 Dec 16, 105:19797-802 [PubMed Central] [PubMed] [Related articles]
18.	Review. Meiotic drive and sex determination: molecular and cytological mechanisms of sex ratio adjustment in birds. Rutkowska J, Badyaev AV Philos Trans R Soc Lond B Biol Sci 2008 May 12, 363:1675-86 [PubMed Central] [PubMed] [Related articles]
19.	The C-terminal domain of CENP-C displays multiple and critical functions for mammalian centromere formation. Trazzi S, Perini G, Bernardoni R, Zoli M, Reese JC, Musacchio A, Della Valle G PLoS One 2009, 4:e5832 [PubMed Central] [PubMed] [Related articles]

This article is also cited by 3 articles in BioMed Central

printer friendly

to [Help]

Terms and Conditions Privacy statement Information for advertisers Jobs at BMC Contact us