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Plant Direct
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February 15, 2024
The maize <i>striate leaves2</i> (<i>sr2</i>) gene encodes a conserved DUF3732 domain and is homologous to the rice <i>yss1</i> gene
Meghan J Brady, Maya Cheam, Jonathan I Gent, et al.
Bioinformatics (Oxford, England)
|
March 27, 2004
LumberJack: a heuristic tool for sequence alignment exploration and phylogenetic inference
Carolyn J Lawrence, Christian M Zmasek, R Kelly Dawe, et al.
Frontiers in Plant Science
|
September 10, 2021
QTL Map of Early- and Late-Stage Perennial Regrowth in <i>Zea diploperennis</i>
Kyle W Swentowsky, Harrison S Bell, David M Wills, et al.
Journal of Molecular Evolution
|
December 6, 2001
Maximum likelihood methods reveal conservation of function among closely related kinesin families
Carolyn J Lawrence, Russell L Malmberg, Michael G Muszynski, et al.
Genetics
|
March 5, 2013
Intragenomic conflict between the two major knob repeats of maize
Lisa B Kanizay, Patrice S Albert, James A Birchler, et al.
Genetics
|
April 15, 2021
Maize centromeric chromatin scales with changes in genome size
Na Wang, Jianing Liu, William A Ricci, et al.
The Plant Cell
|
January 22, 2005
Phosphoserines on maize CENTROMERIC HISTONE H3 and histone H3 demarcate the centromere and pericentromere during chromosome segregation
Xiaolan Zhang, Xuexian Li, Joshua B Marshall, et al.
The Plant Journal : for Cell and Molecular Biology
|
April 28, 2025
Two CENH3 paralogs in the green alga Chlamydomonas reinhardtii have a redundantly essential function and associate with ZeppL-LINE1 elements
Dianyi Liu, Mingyu Wang, Jonathan I Gent, et al.
Genome Biology
|
February 14, 2026
Higher order repeat structures reflect diverging evolutionary paths in maize centromeres and knobs
Rebecca D Piri, Mingyu Wang, M Cinta Romay, et al.
Genetics
|
March 29, 2003
Chromatin immunoprecipitation reveals that the 180-bp satellite repeat is the key functional DNA element of Arabidopsis thaliana centromeres
Kiyotaka Nagaki, Paul B Talbert, Cathy Xiaoyan Zhong, et al.
Page
of 11
Search research articles
Search
Showing results (51-60 of 104) with videos related to
Sort By:
Page
of 11
Plant Direct
|
February 15, 2024
The maize <i>striate leaves2</i> (<i>sr2</i>) gene encodes a conserved DUF3732 domain and is homologous to the rice <i>yss1</i> gene
Meghan J Brady, Maya Cheam, Jonathan I Gent, et al.
Bioinformatics (Oxford, England)
|
March 27, 2004
LumberJack: a heuristic tool for sequence alignment exploration and phylogenetic inference
Carolyn J Lawrence, Christian M Zmasek, R Kelly Dawe, et al.
Frontiers in Plant Science
|
September 10, 2021
QTL Map of Early- and Late-Stage Perennial Regrowth in <i>Zea diploperennis</i>
Kyle W Swentowsky, Harrison S Bell, David M Wills, et al.
Journal of Molecular Evolution
|
December 6, 2001
Maximum likelihood methods reveal conservation of function among closely related kinesin families
Carolyn J Lawrence, Russell L Malmberg, Michael G Muszynski, et al.
Genetics
|
March 5, 2013
Intragenomic conflict between the two major knob repeats of maize
Lisa B Kanizay, Patrice S Albert, James A Birchler, et al.
Genetics
|
April 15, 2021
Maize centromeric chromatin scales with changes in genome size
Na Wang, Jianing Liu, William A Ricci, et al.
The Plant Cell
|
January 22, 2005
Phosphoserines on maize CENTROMERIC HISTONE H3 and histone H3 demarcate the centromere and pericentromere during chromosome segregation
Xiaolan Zhang, Xuexian Li, Joshua B Marshall, et al.
The Plant Journal : for Cell and Molecular Biology
|
April 28, 2025
Two CENH3 paralogs in the green alga Chlamydomonas reinhardtii have a redundantly essential function and associate with ZeppL-LINE1 elements
Dianyi Liu, Mingyu Wang, Jonathan I Gent, et al.
Genome Biology
|
February 14, 2026
Higher order repeat structures reflect diverging evolutionary paths in maize centromeres and knobs
Rebecca D Piri, Mingyu Wang, M Cinta Romay, et al.
Genetics
|
March 29, 2003
Chromatin immunoprecipitation reveals that the 180-bp satellite repeat is the key functional DNA element of Arabidopsis thaliana centromeres
Kiyotaka Nagaki, Paul B Talbert, Cathy Xiaoyan Zhong, et al.
Page
of 11