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本文引用的文献

1
Effects of fuzzless cottonseed phenotype on cottonseed nutrient composition in near isogenic cotton (Gossypium hirsutum L.) mutant lines under well-watered and water stress conditions.水浇和水分胁迫条件下近等基因棉(Gossypium hirsutum L.)突变系中无茸毛棉籽表型对棉籽营养成分的影响。
Front Plant Sci. 2013 Dec 30;4:516. doi: 10.3389/fpls.2013.00516. eCollection 2013.
2
Effects of foliar boron application on seed composition, cell wall boron, and seed δ(15)N and δ(13)C isotopes in water-stressed soybean plants.叶面施硼对水分胁迫下大豆植株种子成分、细胞壁硼和种子 δ(15)N 和 δ(13)C 同位素的影响。
Front Plant Sci. 2013 Jul 23;4:270. doi: 10.3389/fpls.2013.00270. eCollection 2013.
3
Functional genomics of fuzzless-lintless mutant of Gossypium hirsutum L. cv. MCU5 reveal key genes and pathways involved in cotton fibre initiation and elongation.陆地棉 MCU5 品种无绵绒突变体的功能基因组学揭示了棉花纤维起始和伸长过程中涉及的关键基因和途径。
BMC Genomics. 2012 Nov 14;13:624. doi: 10.1186/1471-2164-13-624.
4
Nitrogen metabolism and seed composition as influenced by glyphosate application in glyphosate-resistant soybean.草甘膦抗性大豆中草甘膦施用对氮代谢和种子成分的影响
J Agric Food Chem. 2008 Apr 23;56(8):2765-72. doi: 10.1021/jf703615m. Epub 2008 Mar 26.
5
Endocytosis and degradation of BOR1, a boron transporter of Arabidopsis thaliana, regulated by boron availability.拟南芥硼转运蛋白BOR1的内吞作用和降解受硼有效性的调控。
Proc Natl Acad Sci U S A. 2005 Aug 23;102(34):12276-81. doi: 10.1073/pnas.0502060102. Epub 2005 Aug 15.
6
Rhamnogalacturonan II: structure and function of a borate cross-linked cell wall pectic polysaccharide.鼠李半乳糖醛酸聚糖II:一种硼酸交联的细胞壁果胶多糖的结构与功能
Annu Rev Plant Biol. 2004;55:109-39. doi: 10.1146/annurev.arplant.55.031903.141750.
7
Identification of a third fuzzless seed locus in upland cotton (Gossypium hirsutum L.).陆地棉(Gossypium hirsutum L.)中第三个无绒籽基因座的鉴定。
J Hered. 2002 Sep-Oct;93(5):359-64. doi: 10.1093/jhered/93.5.359.
8
Arabidopsis boron transporter for xylem loading.拟南芥木质部装载硼转运蛋白。
Nature. 2002 Nov 21;420(6913):337-40. doi: 10.1038/nature01139.
9
Localization of Boron in Cell Walls of Squash and Tobacco and Its Association with Pectin (Evidence for a Structural Role of Boron in the Cell Wall).硼在南瓜和烟草细胞壁中的定位及其与果胶的关联(硼在细胞壁中结构作用的证据)
Plant Physiol. 1994 Jun;105(2):681-689. doi: 10.1104/pp.105.2.681.
10
Two Chains of Rhamnogalacturonan II Are Cross-Linked by Borate-Diol Ester Bonds in Higher Plant Cell Walls.在高等植物细胞壁中,鼠李半乳糖醛酸聚糖II的两条链通过硼酸 - 二醇酯键交联。
Plant Physiol. 1996 Mar;110(3):1017-1020. doi: 10.1104/pp.110.3.1017.

水分胁迫和叶面喷施硼改变了具有有绒和无绒种子表型的近等基因棉花品系的细胞壁硼含量和种子营养。

Water Stress and Foliar Boron Application Altered Cell Wall Boron and Seed Nutrition in Near-Isogenic Cotton Lines Expressing Fuzzy and Fuzzless Seed Phenotypes.

作者信息

Bellaloui Nacer, Turley Rickie B, Stetina Salliana R

机构信息

Crop Genetics Research Unit, United States Department of Agriculture, Agricultural Research Service, Stoneville, Mississippi, United States of America.

出版信息

PLoS One. 2015 Jun 22;10(6):e0130759. doi: 10.1371/journal.pone.0130759. eCollection 2015.

DOI:10.1371/journal.pone.0130759
PMID:26098564
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4476688/
Abstract

Our previous research, conducted under well-watered conditions without fertilizer application, showed that fuzziness cottonseed trait resulted in cottonseed nutrition differences between fuzzy (F) and fuzzless (N) cottonseed. Under water stress conditions, B mobility is further limited, inhibiting B movement within the plant, affecting seed nutrition (quality). Therefore, we hypothesized that both foliar B and water stress can affect B mobility, altering cottonseed protein, oil, and mineral nutrition. The objective of the current research was to evaluate the effects of the fuzziness seed trait on boron (B) and seed nutrition under water stress and foliar B application using near-isogenic cotton lines (NILs) grown in a repeated greenhouse experiment. Plants were grown under-well watered conditions (The soil water potential was kept between -15 to -20 kPa, considered field capacity) and water stress conditions (soil water potential between -100 and -150 kPa, stressed conditions). Foliar B was applied at a rate of 1.8 kg B ha(-1) as H3BO3. Under well-watered conditions without B the concentrations of seed oil in N lines were higher than in F lines, and seed K and N levels were lower in N lines than in F lines. Concentrations of K, N, and B in leaves were higher in N lines than in F lines, opposing the trend in seeds. Water-stress resulted in higher seed protein concentrations, and the contribution of cell wall (structural) B to the total B exceeded 90%, supporting the structural role of B in plants. Foliar B application under well-watered conditions resulted in higher seed protein, oil, C, N, and B in only some lines. This research showed that cottonseed nutrition differences can occur due to seed fuzziness trait, and water stress and foliar B application can alter cottonseed nutrition.

摘要

我们之前在不施肥且水分充足的条件下开展的研究表明,棉籽带绒性状导致了有绒(F)棉籽和无绒(N)棉籽在营养方面存在差异。在水分胁迫条件下,硼(B)的移动性进一步受限,抑制了硼在植物体内的移动,影响种子营养(品质)。因此,我们推测叶面施硼和水分胁迫都会影响硼的移动性,进而改变棉籽的蛋白质、油脂和矿物质营养。本研究的目的是利用在重复温室试验中种植的近等基因棉系(NILs),评估在水分胁迫和叶面施硼条件下,棉籽带绒性状对硼和种子营养的影响。植株分别在水分充足条件下(土壤水势保持在-15至-20千帕,视为田间持水量)和水分胁迫条件下(土壤水势在-100至-150千帕,胁迫条件)生长。以硼酸(H3BO3)的形式按1.8千克硼每公顷(B ha(-1))的用量进行叶面施硼。在不施硼且水分充足的条件下,N系棉籽的油脂浓度高于F系,而N系棉籽的钾(K)和氮(N)含量低于F系。N系叶片中的钾、氮和硼浓度高于F系,与种子中的趋势相反。水分胁迫导致种子蛋白质浓度升高,细胞壁(结构性)硼占总硼的比例超过90%,这支持了硼在植物中的结构作用。在水分充足条件下进行叶面施硼,仅在部分品系中使种子蛋白质、油脂、碳(C)、氮和硼含量升高。本研究表明,棉籽带绒性状可能导致棉籽营养差异,水分胁迫和叶面施硼会改变棉籽营养。