玉米寡肽转运体基因家族的全面分析:全基因组鉴定、结构特征和胁迫响应表达

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-02 DOI:10.1016/j.sajb.2024.10.004
Md.Golam Rabby , Fang Li , Tao Yang , Md.Sohel Mia , Rui Li , Zhangtao Zhang , Chao Xia , Md.Ashrafuzzaman Zahid , Md.Mahmudul Hasan
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引用次数: 0

摘要

寡肽转运体(OPT)蛋白是细胞膜上不可或缺的蛋白质,在细胞金属平衡、矿物质吸收、小肽转运和非生物胁迫耐受性方面发挥着至关重要的作用。因此,深入的进化、结构、分子和表达分析有助于探索这些转运蛋白如何促进玉米的营养平衡和非生物胁迫耐受性。经过一系列生物信息学分析,确定了玉米中的 8 个 OPTs。这些转运体的分子量有显著差异,具有 1 至 5 个内含子、11 至 15 个基序、11 至 18 个跨膜结构域、多个 beta 链、多个 alpha 和跨膜螺旋。ZmOPT1、5 和 6 位于质膜,其余则位于内质网。所有 ZmOPTs 都分布在六条不同的染色体上,具有重要的植物激素反应顺式元件,这可能是因为它们在玉米激素调节中发挥了重要作用。在基因本体分析中,这些转运体的重要转运活性在玉米的生物过程、细胞组分和分子功能中发挥了重要作用。8 个 OPTs 中有 5 个基因与 56 个基因共表达,这可能是由于它们在多种信号通路中对其他基因起着重要的调控作用,反之亦然。对 ZmOPT1、7 和 8 基因进行实时 PCR 验证后发现,这些转运体在特定组织和非生物胁迫耐受性中具有显著的组织特异性和干旱、盐度、氮饥饿和热胁迫诱导的硅表达,这可能有助于阐明这些转运体在特定组织和非生物胁迫耐受性中的潜在作用。因此,研究结果可能会指导植物生物学家开发出具有更高的肽和金属离子转运效率、平衡和非生物胁迫耐受性的玉米新品种。这些结构和表达分析结果可能会指导植物生物学家进行单一转基因,或开发和改造基于编程的玉米合成遗传线路,以推进玉米多肽转运、金属止血和提高非生物胁迫耐受性方面的研究。
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Comprehensive analysis of the oligopeptide transporter gene family in maize: Genome-wide identification, structural characterization, and stress-responsive expression
Oligopeptide transporter (OPT) proteins are integral proteins in cell membranes that perform a crucial role in cellular metal homeostasis, mineral uptake, transport of small peptides and abiotic stress tolerance. Hence, in-depth evolutionary, structural, molecular and expression analysis could guide in exploring the mechanism of how these transporters contribute to nutrient balance and abiotic stress tolerance in maize. Following a series of bioinformatic analyses, eight OPTs in maize were identified. These transporters showed significant variations in molecular weight, and have one to five introns, 11 to 15 motifs, 11 to 18 transmembrane domains, multiple beta-strands, multiple alpha and transmembrane helices. ZmOPT1, 5, and 6 are plasma membranes and the rest are endoplasmic reticulum localized. All ZmOPTs are distributed in six different chromosomes having significant phytohormone-responsive cis-elements might be due to their great roles in hormonal regulation in maize. The significant transport activity of these transporters plays a great role in biological processes, cellular components and molecular functions in maize during gene ontology analysis. Co-expression of five genes among eight OPTs with 56 genes might be due to their great role in regulating other genes in multiple signaling pathways or vice-versa. Significant tissue-specific and drought, salinity, nitrogen starvation, and heat stress induced in silico expression following real time PCR validation of ZmOPT1, 7, and 8 genes might guide to elucidate the potential roles of these transporters in specific tissues and abiotic stress tolerance. Hence, the findings of the research might guide plant biologists to develop new varieties of maize having higher efficiency of peptide and metal ion transport, balance, and abiotic stress tolerance. Findings of these structural and expression analyzes might guide the plant biologist for single transgenesis, or developing and transforming programming-based synthetic genetic circuits in maize for advancing research in peptide transport, metal hemostasis, and increasing abiotic stress tolerance in maize.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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