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1
Pectic Metabolism of Growing Cell Walls.生长细胞壁的果胶代谢
Plant Physiol. 1960 Jan;35(1):87-97. doi: 10.1104/pp.35.1.87.
2
Pectic polysaccharide breakdown of cell walls in cucumber roots grown with calcium starvation.缺钙条件下生长的黄瓜根细胞壁中果胶多糖的分解
Plant Physiol. 1984 Nov;76(3):633-7. doi: 10.1104/pp.76.3.633.
3
Pectic Cell Wall Fragments Regulate Tobacco Thin-Cell-Layer Explant Morphogenesis.果胶细胞壁片段调控烟草薄细胞层外植体形态发生。
Plant Cell. 1989 Aug;1(8):747-755. doi: 10.1105/tpc.1.8.747.
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Structure of Plant Cell Walls : XXVI. The Walls of Suspension-Cultured Sycamore Cells Contain a Family of Rhamnogalacturonan-I-Like Pectic Polysaccharides.植物细胞壁结构:XXVI. 悬浮培养的枫槭细胞的细胞壁含有一系列鼠李半乳糖醛酸聚糖 I 型类似的果胶多糖。
Plant Physiol. 1989 Feb;89(2):421-8. doi: 10.1104/pp.89.2.421.
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Side chains of pectic polysaccharides are regulated in relation to cell proliferation and cell differentiation.果胶多糖的侧链在细胞增殖和细胞分化方面受到调控。
Plant J. 1999 Dec;20(6):619-28. doi: 10.1046/j.1365-313x.1999.00629.x.
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Structure of Plant Cell Walls : XIX. Isolation and Characterization of Wall Polysaccharides from Suspension-Cultured Douglas Fir Cells.植物细胞壁的结构:十九。悬浮培养的花旗松细胞中细胞壁多糖的分离与特性分析。
Plant Physiol. 1987 Mar;83(3):659-71. doi: 10.1104/pp.83.3.659.
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Studies on the Pectic Substances of Plant Cell Walls: III. DEGRADATION OF CARROT ROOT CELL WALLS BY ENDOPECTATE LYASE PURIFIED FROM ERWINIA AROIDEAE.植物细胞壁果胶物质的研究:III. 从溃烂欧文氏菌中纯化的内聚半乳糖醛酸酶对胡萝卜根细胞壁的降解。
Plant Physiol. 1982 Apr;69(4):864-8. doi: 10.1104/pp.69.4.864.
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Cell Wall Ultrastructure of Stem Wood, Roots, and Needles of a Conifer Varies in Response to Moisture Availability.针叶树茎干木材、根系和针叶的细胞壁超微结构会因水分供应情况而有所不同。
Front Plant Sci. 2016 Jun 24;7:882. doi: 10.3389/fpls.2016.00882. eCollection 2016.
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The Structure of Plant Cell Walls: II. The Hemicellulose of the Walls of Suspension-cultured Sycamore Cells.植物细胞壁的结构:II. 悬浮培养的悬铃木细胞细胞壁中的半纤维素
Plant Physiol. 1973 Jan;51(1):174-87. doi: 10.1104/pp.51.1.174.
10
Effect of cations on the elution of pectic polysaccharides from anion-exchange resins.阳离子对果胶多糖从阴离子交换树脂上洗脱的影响。
Anal Biochem. 1995 Jun 10;228(1):109-14. doi: 10.1006/abio.1995.1321.

引用本文的文献

1
The plant cell wall-dynamic, strong, and adaptable-is a natural shapeshifter.植物细胞壁——动态、坚固且适应性强——是一种天然的变形金刚。
Plant Cell. 2024 May 1;36(5):1257-1311. doi: 10.1093/plcell/koad325.
2
A microautoradiographic study of Ca(45) and S (35) distribution in the intact bean root.在完整的豆根中 Ca(45)和 S(35)分布的显微放射自显影研究。
Planta. 1967 Dec;74(4):350-67. doi: 10.1007/BF00389093.
3
QUASIMODO 3 (QUA3) is a putative homogalacturonan methyltransferase regulating cell wall biosynthesis in Arabidopsis suspension-cultured cells.QUASIMODO 3(QUA3)是一种假定的半乳糖醛酸甲酯转移酶,调节拟南芥悬浮培养细胞的细胞壁生物合成。
J Exp Bot. 2011 Oct;62(14):5063-78. doi: 10.1093/jxb/err211. Epub 2011 Jul 1.
4
Rapid Effects of IAA on Cell Surface Proteins from Intact Carrot Suspension Culture Cells.IAA 对完整胡萝卜悬浮培养细胞表面蛋白的快速作用。
Plant Physiol. 1987 Jun;84(2):443-6. doi: 10.1104/pp.84.2.443.
5
Red Light Stimulates an Increase in Intracellular Calcium in the Spores of Onoclea sensibilis.红光刺激离囊蕨孢子细胞内钙离子浓度增加。
Plant Physiol. 1985 Jan;77(1):8-11. doi: 10.1104/pp.77.1.8.
6
Auxin-induced Changes in Avena Coleoptile Cell Wall Composition.生长素诱导的燕麦胚芽鞘细胞壁成分的变化。
Plant Physiol. 1972 Nov;50(5):556-63. doi: 10.1104/pp.50.5.556.
7
Effect of metabolic inhibitors and temperature on uptake and translocation of ca and k by intact bean plants.代谢抑制剂和温度对完整菜豆植株钙和钾吸收及转运的影响。
Plant Physiol. 1971 Oct;48(4):426-32. doi: 10.1104/pp.48.4.426.
8
Indoleacetic Acid and the synthesis of glucanases and pectic enzymes.吲哚乙酸与葡聚糖酶和果胶酶的合成。
Plant Physiol. 1968 May;43(5):735-42. doi: 10.1104/pp.43.5.735.
9
A mechanism for the leaching of calcium from foliage.从叶子中浸提钙的机理。
Plant Physiol. 1966 Apr;41(4):610-3. doi: 10.1104/pp.41.4.610.
10
The Effect of Auxin on Synthesis of Oat Coleoptile Cell Wall Constituents.生长素对燕麦胚芽鞘细胞壁成分合成的影响。
Plant Physiol. 1965 Mar;40(2):353-60. doi: 10.1104/pp.40.2.353.

本文引用的文献

1
Chemical Constitution of the Primary Cell Walls of Avena Coleoptiles.燕麦胚芽鞘初生细胞壁的化学组成
Plant Physiol. 1958 Jul;33(4):283-9. doi: 10.1104/pp.33.4.283.
2
Methyl Esterification of Cell Wall Constituents under the Influence of Auxin.生长素影响下细胞壁成分的甲酯化作用
Plant Physiol. 1957 May;32(3):216-20. doi: 10.1104/pp.32.3.216.
3
Effect of Galactose on Growth and Metabolism of Avena Coleoptile Sections.半乳糖对燕麦胚芽鞘切段生长和代谢的影响。
Plant Physiol. 1957 May;32(3):212-5. doi: 10.1104/pp.32.3.212.
4
Mechanical Properties of the Avena Coleoptile As Related to Auxin and to Ionic Interactions.燕麦胚芽鞘的机械特性与生长素及离子相互作用的关系
Plant Physiol. 1957 May;32(3):207-12. doi: 10.1104/pp.32.3.207.
5
The Residual Effect of Auxin on the Cell Wall.生长素对细胞壁的残留效应。
Plant Physiol. 1956 Sep;31(5):350-4. doi: 10.1104/pp.31.5.350.
6
Auxin-Induced Water Uptake by Avena Coleoptile Sections.生长素诱导燕麦胚芽鞘切段对水分的吸收
Plant Physiol. 1956 Jan;31(1):44-53. doi: 10.1104/pp.31.1.44.
7
INFLUENCE OF AUXIN ON CELL-WALL METABOLISM.生长素对细胞壁代谢的影响。
Proc Natl Acad Sci U S A. 1955 Dec 15;41(12):1023-9. doi: 10.1073/pnas.41.12.1023.
8
Studies on the Growth Hormone of Plants: V. The Relation of Cell Elongation to Cell Wall Formation.植物生长激素的研究:V. 细胞伸长与细胞壁形成的关系。
Proc Natl Acad Sci U S A. 1934 Jun;20(6):393-7. doi: 10.1073/pnas.20.6.393.
9
Effects of indoleacetic acid on metabolic pathways.吲哚乙酸对代谢途径的影响。
Arch Biochem Biophys. 1953 Oct;46(2):279-90. doi: 10.1016/0003-9861(53)90201-x.

Pectic Metabolism of Growing Cell Walls.

作者信息

Jansen E F, Jang R

机构信息

Western Regional Research Laboratory, Albany, California.

出版信息

Plant Physiol. 1960 Jan;35(1):87-97. doi: 10.1104/pp.35.1.87.

DOI:10.1104/pp.35.1.87
PMID:16655319
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC405923/
Abstract
摘要