| Literature DB >> 24685595 |
April Leonard1, Beth Holloway2, Mei Guo3, Mary Rupe3, GongXin Yu3, Mary Beatty3, Gina Zastrow-Hayes3, Robert Meeley3, Victor Llaca1, Karlene Butler1, Tony Stefani3, Jennifer Jaqueth1, Bailin Li4.
Abstract
tassel-less1 (tls1) is a classical maize (Zea mays) inflorescence mutant. Homozygous mutant plants have no tassels or very small tassels, and ear development is also impaired. Using a positional cloning approach, ZmNIP3;1 (a NOD26-like intrinsic protein) was identified as the candidate gene for tls1. The ZmNIP3;1 gene is completely deleted in the tls1 mutant genome. Two Mutator-insertional TUSC alleles of ZmNIP3;1 exhibited tls1-like phenotypes, and allelism tests confirmed that the tls1 gene encodes ZmNIP3;1. Transgenic plants with an RNA interference (RNAi) construct to down-regulate ZmNIP3;1 also showed tls1-like phenotypes, further demonstrating that TLS1 is ZmNIP3;1. Sequence analysis suggests that ZmNIP3;1 is a boron channel protein. Foliar application of boron could rescue the tls1 phenotypes and restore the normal tassel and ear development. Gene expression analysis indicated that in comparison with that of the wild type or tls1 plants treated with boron, the transition from the vegetative to reproductive phase or the development of the floral meristem is impaired in the shoot apical meristem of the tls1 mutant plants. It is concluded that the tls1 mutant phenotypes are caused by impaired boron transport, and boron is essential for inflorescence development in maize.Entities:
Keywords: Boron; Boron channel protein; Tassel; Tassel-less1; Zea mays; ZmNIP3;1
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Year: 2014 PMID: 24685595 DOI: 10.1093/pcp/pcu036
Source DB: PubMed Journal: Plant Cell Physiol ISSN: 0032-0781 Impact factor: 4.927