哪有情可长
(2022-11-30 19:24):
#paper THP9 enhances seed protein content and nitrogen-use efficiency in maize, Nature 2022 October, https://doi.org/10.1038/s41586-022-05441-2. 鉴定未驯化的野生型玉米大刍草的蛋白发现其要比现代玉米籽粒蛋白含量高,由于玉米大刍草的基因型复杂,其参考基因组一直没有被组装,作者通过构建已知参考基因组B73和大刍草杂交后代,测定后代基因型去掉已知的参考基因组B73进行组装大刍草的参考基因组,将两套参考基因组进行共线性分析发现存在大量的结构变异,推测蛋白含量的高低可能是由于结构变异引起。作者们继续构建群体,通过BSA鉴定到了控制籽粒蛋白含量的基因THP9,该基因在现代品种中存在48bp的缺失,导致剪切位点发生变化后导致基因翻译提前终止,最终导致现代玉米籽粒蛋白含量降低。作者又利用525份自然群体进行GWAS分析,也鉴定到该基因所处的区间。对525份材料按照基因型可以分成三种单倍型,Hap1跟野生型基因型一致,作者又通过转基因验证该基因的确能够提高蛋白含量,又通过构建NIL群体,继续验证该基因的功能,发现当籽粒蛋白含量高时,根部的氮吸收效率高,该基因也是首次在玉米中鉴定的第一个高蛋白基因。
THP9 enhances seed protein content and nitrogen-use efficiency in maize
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Abstract:
Teosinte, the wild ancestor of maize (Zea mays subsp. mays), has three times the seed protein content of most modern inbreds and hybrids, but the mechanisms that are responsible for this trait are unknown. Here we use trio binning to create a contiguous haplotype DNA sequence of a teosinte (Zea mays subsp. parviglumis) and, through map-based cloning, identify a major high-protein quantitative trait locus, TEOSINTE HIGH PROTEIN 9 (THP9), on chromosome 9. THP9 encodes an asparagine synthetase 4 enzyme that is highly expressed in teosinte, but not in the B73 inbred, in which a deletion in the tenth intron of THP9-B73 causes incorrect splicing of THP9-B73 transcripts. Transgenic expression of THP9-teosinte in B73 significantly increased the seed protein content. Introgression of THP9-teosinte into modern maize inbreds and hybrids greatly enhanced the accumulation of free amino acids, especially asparagine, throughout the plant, and increased seed protein content without affecting yield. THP9-teosinte seems to increase nitrogen-use efficiency, which is important for promoting a high yield under low-nitrogen conditions.
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