Anatomical and transcriptional dynamics of maize embryonic leaves during seed germination

Our anatomical analysis revealed that a dry maize seed contains four to five embryonic leaves at different developmental stages. Rudimentary kranz structure (KS) is apparent in the first leaf with a substantial density, but its density decreases toward younger leaves. Upon imbibition, leaf expansion...

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Published in:	Proceedings of the National Academy of Sciences - PNAS Vol. 110; no. 10; pp. 3979 - 3984
Main Authors:	Liu, Wen-Yu, Chang, Yao-Ming, Chen, Sean Chun-Chang, Lu, Chen-Hua, Wu, Yeh-Hwa, Lu, Mei-Yeh Jade, Chen, Di-Rong, Shih, Arthur Chun-Chieh, Sheue, Chiou-Rong, Huang, Hsuan-Cheng, Yu, Chun-Ping, Lin, Hsin-Hung, Shiu, Shin-Han, Ku, Maurice Sun-Ben, Li, Wen-Hsiung
Format:	Journal Article
Language:	English
Published:	United States National Academy of Sciences 05-03-2013 National Acad Sciences
Subjects:	Biological Sciences Cellular differentiation Corn Datasets Developmental biology Epidermal cells Gene expression Gene Expression Profiling Gene expression regulation Gene Expression Regulation, Developmental Gene Expression Regulation, Plant Genes Genes, Plant Germination Germination - genetics Leaf development Leaves Mesophyll cells Plant Growth Regulators - genetics Plant Leaves - embryology Plant Leaves - genetics Plant Proteins - genetics Ribonucleic acid RNA RNA, Plant - genetics Seeds Seeds - embryology Seeds - genetics Stem cells Transcription Factors - genetics Zea mays - embryology Zea mays - genetics Zea mays - physiology
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Summary:	Our anatomical analysis revealed that a dry maize seed contains four to five embryonic leaves at different developmental stages. Rudimentary kranz structure (KS) is apparent in the first leaf with a substantial density, but its density decreases toward younger leaves. Upon imbibition, leaf expansion occurs rapidly with new KSs initiated from the palisade-like ground meristem cells in the middle of the leaf. In parallel to the anatomical analysis, we obtained the time course transcriptomes for the embryonic leaves in dry and imbibed seeds every 6 h up to hour 72. Over this time course, the embryonic leaves exhibit transcripts of 30,255 genes at a level that can be regarded as “expressed.” In dry seeds, ∼25,500 genes are expressed, showing functional enrichment in transcription, RNA processing, protein synthesis, primary metabolic pathways, and calcium transport. During the 72-h time course, ∼13,900 genes, including 590 transcription factor genes, are differentially expressed. Indeed, by 30 h postimbibition, ∼2,200 genes expressed in dry seeds are already down-regulated, and ∼2,000 are up-regulated. Moreover, the top 1% expressed genes at 54 h or later are very different from those before 30 h, reflecting important developmental and physiological transitions. Interestingly, clusters of genes involved in hormone metabolism, signaling, and responses are differentially expressed at various time points and TF gene expression is also modular and stage specific. Our dataset provides an opportunity for hypothesizing the timing of regulatory actions, particularly in the context of KS development.
Bibliography:	http://dx.doi.org/10.1073/pnas.1301009110 ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Contributed by Wen-Hsiung Li, January 17, 2013 (sent for review November 27, 2012) 1W.-Y.L., Y.-M.C., and S.C.-C.C. contributed equally to this work. Author contributions: W.-Y.L., Y.-M.C., S.C.-C.C., M.S.-B.K., and W.-H.L. designed research; W.-Y.L., Y.-M.C., S.C.-C.C., Y.-H.W., M.-Y.J.L., D.-R.C., A.C.-C.S., C.-R.S., H.-C.H., C.-P.Y., H.-H.L., S.-H.S., M.S.-B.K., and W.-H.L. performed research; Y.-M.C., S.C.-C.C., C.-H.L., H.-C.H., and C.-P.Y. analyzed data; and W.-Y.L., Y.-M.C., S.C.-C.C., C.-H.L., M.-Y.J.L., A.C.-C.S., C.-R.S., H.-C.H., C.-P.Y., H.-H.L., S.-H.S., M.S.-B.K., and W.-H.L. wrote the paper.
ISSN:	0027-8424 1091-6490
DOI:	10.1073/pnas.1301009110