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Nathan M Springer

Showing results (41-50 of 143) with videos related to

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Plos One|October 14, 2009
Heterosis is prevalent for multiple traits in diverse maize germplasmSherry A Flint-Garcia, Edward S Buckler, Peter Tiffin, et al.
Genome Biology|November 7, 2022
Mapping responsive genomic elements to heat stress in a maize diversity panelZhikai Liang, Zachary A Myers, Dominic Petrella, et al.
The Plant Genome|August 4, 2022
Modeling chromatin state from sequence across angiosperms using recurrent convolutional neural networksTravis Wrightsman, Alexandre P Marand, Peter A Crisp, et al.
Cancer Research|August 6, 2009
Developmental origins of cancerKimberly J Johnson, Nathan M Springer, Anja-Katrin Bielinsky, et al.
Genetics|June 1, 2018
Heritable Epigenomic Changes to the Maize Methylome Resulting from Tissue CultureZhaoxue Han, Peter A Crisp, Scott Stelpflug, et al.
Plant Physiology|June 11, 2022
Epigenetic features drastically impact CRISPR-Cas9 efficacy in plantsTrevor Weiss, Peter A Crisp, Krishan M Rai, et al.
Molecular Plant|June 9, 2025
DNA demethylase augments RNA-directed DNA methylation by enhancing CLSY gene expression in maize and ArabidopsisQiang Xu, Qiuxin Kan, Zhixiang Luo, et al.
Genetics|July 16, 2014
Consistent and heritable alterations of DNA methylation are induced by tissue culture in maizeScott C Stelpflug, Steven R Eichten, Peter J Hermanson, et al.
The New Phytologist|November 2, 2020
CHH DNA methylation increases at 24-PHAS loci depend on 24-nt phased small interfering RNAs in maize meiotic anthersMei Zhang, Xuxu Ma, Chunyu Wang, et al.
Biotechnology and Bioengineering|April 15, 2017
A comparative genomic hybridization approach to study gene copy number variations among Chinese hamster cell linesNandita Vishwanathan, Arpan Bandyopadhyay, Hsu-Yuan Fu, et al.
Pageof 15

Showing results (41-50 of 143) with videos related to

Sort By:
Pageof 15
Plos One|October 14, 2009
Heterosis is prevalent for multiple traits in diverse maize germplasmSherry A Flint-Garcia, Edward S Buckler, Peter Tiffin, et al.
Genome Biology|November 7, 2022
Mapping responsive genomic elements to heat stress in a maize diversity panelZhikai Liang, Zachary A Myers, Dominic Petrella, et al.
The Plant Genome|August 4, 2022
Modeling chromatin state from sequence across angiosperms using recurrent convolutional neural networksTravis Wrightsman, Alexandre P Marand, Peter A Crisp, et al.
Cancer Research|August 6, 2009
Developmental origins of cancerKimberly J Johnson, Nathan M Springer, Anja-Katrin Bielinsky, et al.
Genetics|June 1, 2018
Heritable Epigenomic Changes to the Maize Methylome Resulting from Tissue CultureZhaoxue Han, Peter A Crisp, Scott Stelpflug, et al.
Plant Physiology|June 11, 2022
Epigenetic features drastically impact CRISPR-Cas9 efficacy in plantsTrevor Weiss, Peter A Crisp, Krishan M Rai, et al.
Molecular Plant|June 9, 2025
DNA demethylase augments RNA-directed DNA methylation by enhancing CLSY gene expression in maize and ArabidopsisQiang Xu, Qiuxin Kan, Zhixiang Luo, et al.
Genetics|July 16, 2014
Consistent and heritable alterations of DNA methylation are induced by tissue culture in maizeScott C Stelpflug, Steven R Eichten, Peter J Hermanson, et al.
The New Phytologist|November 2, 2020
CHH DNA methylation increases at 24-PHAS loci depend on 24-nt phased small interfering RNAs in maize meiotic anthersMei Zhang, Xuxu Ma, Chunyu Wang, et al.
Biotechnology and Bioengineering|April 15, 2017
A comparative genomic hybridization approach to study gene copy number variations among Chinese hamster cell linesNandita Vishwanathan, Arpan Bandyopadhyay, Hsu-Yuan Fu, et al.
Pageof 15