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Full-Text Articles in Genetics and Genomics
Genome-Wide Analyses Of The Nac Transcription Factor Gene Family In Pepper (Capsicum Annuum L.): Chromosome Location, Phylogeny, Structure, Expression Patterns, Cis-Elements In The Promoter, And Interaction Network, Weiping Diao, John C. Snyder, Shubin Wang, Jinbing Liu, Baogui Pan, Guangjun Guo, Wei Ge, Mohammad Hasan Salman Ali Dawood
Genome-Wide Analyses Of The Nac Transcription Factor Gene Family In Pepper (Capsicum Annuum L.): Chromosome Location, Phylogeny, Structure, Expression Patterns, Cis-Elements In The Promoter, And Interaction Network, Weiping Diao, John C. Snyder, Shubin Wang, Jinbing Liu, Baogui Pan, Guangjun Guo, Wei Ge, Mohammad Hasan Salman Ali Dawood
Horticulture Faculty Publications
The NAM, ATAF1/2, and CUC2 (NAC) transcription factors form a large plant-specific gene family, which is involved in the regulation of tissue development in response to biotic and abiotic stress. To date, there have been no comprehensive studies investigating chromosomal location, gene structure, gene phylogeny, conserved motifs, or gene expression of NAC in pepper (Capsicum annuum L.). The recent release of the complete genome sequence of pepper allowed us to perform a genome-wide investigation of Capsicum annuum L. NAC (CaNAC) proteins. In the present study, a comprehensive analysis of the CaNAC gene family in pepper was performed, …
Evolution Of Genome Size And Complexity In Pinus., Alison M. Morse, Daniel G. Peterson, M. Nurul Islam-Faridi, Katherine E. Smith, Zenaida V. Magbanua, Saul A. Garcia, Thomas L. Kubisiak, Henry V. Amerson, John E. Carlson, C. Dana Nelson, John M. Davis
Evolution Of Genome Size And Complexity In Pinus., Alison M. Morse, Daniel G. Peterson, M. Nurul Islam-Faridi, Katherine E. Smith, Zenaida V. Magbanua, Saul A. Garcia, Thomas L. Kubisiak, Henry V. Amerson, John E. Carlson, C. Dana Nelson, John M. Davis
College of Agriculture & Life Sciences Publications and Scholarship
BACKGROUND: Genome evolution in the gymnosperm lineage of seed plants has given rise to many of the most complex and largest plant genomes, however the elements involved are poorly understood. METHODOLOGY/PRINCIPAL FINDINGS: Gymny is a previously undescribed retrotransposon family in Pinus that is related to Athila elements in Arabidopsis. Gymny elements are dispersed throughout the modern Pinus genome and occupy a physical space at least the size of the Arabidopsis thaliana genome. In contrast to previously described retroelements in Pinus, the Gymny family was amplified or introduced after the divergence of pine and spruce (Picea). If retrotransposon expansions are responsible …