Kelly Dawe
Kelly Dawe
Departments of Plant Biology and Genetics
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Cited by
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The B73 maize genome: complexity, diversity, and dynamics
PS Schnable, D Ware, RS Fulton, JC Stein, F Wei, S Pasternak, C Liang, ...
science 326 (5956), 1112-1115, 2009
Improved maize reference genome with single-molecule technologies
Y Jiao, P Peluso, J Shi, T Liang, MC Stitzer, B Wang, MS Campbell, ...
Nature 546 (7659), 524-527, 2017
A standardized kinesin nomenclature
CJ Lawrence, RK Dawe, KR Christie, DW Cleveland, SC Dawson, ...
The Journal of cell biology 167 (1), 19-22, 2004
Centromeric retroelements and satellites interact with maize kinetochore protein CENH3
CX Zhong, JB Marshall, C Topp, R Mroczek, A Kato, K Nagaki, JA Birchler, ...
The Plant Cell 14 (11), 2825-2836, 2002
A molecular view of plant centromeres
J Jiang, JA Birchler, WA Parrott, RK Dawe
Trends in plant science 8 (12), 570-575, 2003
De novo assembly, annotation, and comparative analysis of 26 diverse maize genomes
MB Hufford, AS Seetharam, MR Woodhouse, KM Chougule, S Ou, J Liu, ...
Science 373 (6555), 655-662, 2021
CHH islands: de novo DNA methylation in near-gene chromatin regulation in maize
JI Gent, NA Ellis, L Guo, AE Harkess, Y Yao, X Zhang, RK Dawe
Genome research 23 (4), 628-637, 2013
Maize centromeres: organization and functional adaptation in the genetic background of oat
W Jin, JR Melo, K Nagaki, PB Talbert, S Henikoff, RK Dawe, J Jiang
The Plant Cell 16 (3), 571-581, 2004
Chromatin Immunoprecipitation Reveals That the 180-bp Satellite Repeat Is the Key Functional DNA Element of Arabidopsis thaliana Centromeres
K Nagaki, PB Talbert, CX Zhong, RK Dawe, S Henikoff, J Jiang
Genetics 163 (3), 1221-1225, 2003
Centromere-encoded RNAs are integral components of the maize kinetochore
CN Topp, CX Zhong, RK Dawe
Proceedings of the National Academy of Sciences 101 (45), 15986-15991, 2004
Meiotic drive of chromosomal knobs reshaped the maize genome
ES Buckler IV, TL Phelps-Durr, CSK Buckler, RK Dawe, JF Doebley, ...
Genetics 153 (1), 415-426, 1999
RNA-directed DNA methylation enforces boundaries between heterochromatin and euchromatin in the maize genome
Q Li, JI Gent, G Zynda, J Song, I Makarevitch, CD Hirsch, CN Hirsch, ...
Proceedings of the National Academy of Sciences 112 (47), 14728-14733, 2015
The maize W22 genome provides a foundation for functional genomics and transposon biology
NM Springer, SN Anderson, CM Andorf, KR Ahern, F Bai, O Barad, ...
Nature genetics 50 (9), 1282-1288, 2018
Maize centromere structure and evolution: sequence analysis of centromeres 2 and 5 reveals dynamic loci shaped primarily by retrotransposons
TK Wolfgruber, A Sharma, KL Schneider, PS Albert, DH Koo, J Shi, Z Gao, ...
PLoS genetics 5 (11), e1000743, 2009
Molecular and cytological analyses of large tracks of centromeric DNA reveal the structure and evolutionary dynamics of maize centromeres
K Nagaki, J Song, RM Stupar, AS Parokonny, Q Yuan, S Ouyang, J Liu, ...
Genetics 163 (2), 759-770, 2003
Meiotic chromosome pairing in maize is associated with a novel chromatin organization
RK Dawe, JW Sedat, DA Agard, WZ Cande
Cell 76 (5), 901-912, 1994
Meiotic chromosome organization and segregation in plants
RK Dawe
Annual review of plant biology 49 (1), 371-395, 1998
Spreading of heterochromatin is limited to specific families of maize retrotransposons
SR Eichten, NA Ellis, I Makarevitch, CT Yeh, JI Gent, L Guo, KM McGinnis, ...
PLoS genetics 8 (12), e1003127, 2012
DNA binding of centromere protein C (CENPC) is stabilized by single-stranded RNA
Y Du, CN Topp, RK Dawe
PLoS genetics 6 (2), e1000835, 2010
A maize homolog of mammalian CENPC is a constitutive component of the inner kinetochore
RK Dawe, LM Reed, HG Yu, MG Muszynski, EN Hiatt
The Plant Cell 11 (7), 1227-1238, 1999
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