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7
Analysis of celery (Apium graveolens) mannitol dehydrogenase (Mtd) promoter regulation in Arabidopsis suggests roles for MTD in key environmental and metabolic responses.对拟南芥中芹菜(旱芹)甘露醇脱氢酶(Mtd)启动子调控的分析表明,MTD在关键环境和代谢反应中发挥作用。
Plant Mol Biol. 2001 Nov;47(5):621-31. doi: 10.1023/a:1012395121920.
8
Subcellular localization of celery mannitol dehydrogenase. A cytosolic metabolic enzyme in nuclei.芹菜甘露醇脱氢酶的亚细胞定位。一种存在于细胞核中的胞质代谢酶。
Plant Physiol. 1997 Dec;115(4):1397-403. doi: 10.1104/pp.115.4.1397.

本文引用的文献

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Biosynthesis of Sucrose and Mannitol as a Function of Leaf Age in Celery (Apium graveolens L.).芹菜(Apium graveolens L.)中叶龄对蔗糖和甘露醇生物合成的影响。
Plant Physiol. 1988 Jan;86(1):129-33. doi: 10.1104/pp.86.1.129.
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A pathway for photosynthetic carbon flow to mannitol in celery leaves : activity and localization of key enzymes.在芹菜叶片中,光合作用碳流到甘露醇的途径:关键酶的活性和定位。
Plant Physiol. 1983 Dec;73(4):869-73. doi: 10.1104/pp.73.4.869.
3
Mannitol Metabolism in Celery Stressed by Excess Macronutrients.过量大量营养素胁迫下芹菜中的甘露醇代谢
Plant Physiol. 1994 Oct;106(2):503-511. doi: 10.1104/pp.106.2.503.
4
Effect of Different Carbon Sources on Relative Growth Rate, Internal Carbohydrates, and Mannitol 1-Oxidoreductase Activity in Celery Suspension Cultures.不同碳源对芹菜悬浮培养物中相对生长速率、内部碳水化合物及甘露醇1-氧化还原酶活性的影响
Plant Physiol. 1993 Nov;103(3):1001-1008. doi: 10.1104/pp.103.3.1001.
5
Mannose-6-Phosphate Reductase, a Key Enzyme in Photoassimilate Partitioning, Is Abundant and Located in the Cytosol of Photosynthetically Active Cells of Celery (Apium graveolens L.) Source Leaves.甘露糖-6-磷酸还原酶是光合产物分配中的关键酶,在芹菜(Apium graveolens L.)源叶光合活性细胞的细胞质中含量丰富且定位于此。
Plant Physiol. 1993 Jun;102(2):345-356. doi: 10.1104/pp.102.2.345.
6
Companion-Cell Specific Localization of Sucrose Synthase in Zones of Phloem Loading and Unloading.蔗糖合酶在韧皮部装载和卸载区域伴胞中的特异性定位。
Plant Physiol. 1993 Mar;101(3):899-905. doi: 10.1104/pp.101.3.899.
7
Maize sucrose synthase-1 promoter directs phloem cell-specific expression of Gus gene in transgenic tobacco plants.玉米蔗糖合成酶-1启动子在转基因烟草植株中指导Gus基因在韧皮部细胞特异性表达。
Proc Natl Acad Sci U S A. 1990 Jun;87(11):4144-8. doi: 10.1073/pnas.87.11.4144.
8
Sequence analysis of a mannitol dehydrogenase cDNA from plants reveals a function for the pathogenesis-related protein ELI3.对来自植物的甘露醇脱氢酶cDNA进行序列分析,揭示了病程相关蛋白ELI3的一种功能。
Proc Natl Acad Sci U S A. 1995 Aug 1;92(16):7148-52. doi: 10.1073/pnas.92.16.7148.
9
Purification of NAD-dependent mannitol dehydrogenase from celery suspension cultures.从芹菜悬浮培养物中纯化NAD依赖型甘露醇脱氢酶。
Plant Physiol. 1995 Jul;108(3):1219-25. doi: 10.1104/pp.108.3.1219.
10
Cleavage of structural proteins during the assembly of the head of bacteriophage T4.在噬菌体T4头部组装过程中结构蛋白的切割
Nature. 1970 Aug 15;227(5259):680-5. doi: 10.1038/227680a0.

芹菜植株和细胞中甘露醇脱氢酶的免疫定位

Immunolocalization of mannitol dehydrogenase in celery plants and cells.

作者信息

Zamski E, Yamamoto Y T, Williamson J D, Conkling M A, Pharr D M

机构信息

Department of Horticultural Science, North Carolina State University, Raleigh 27695, USA.

出版信息

Plant Physiol. 1996 Nov;112(3):931-8. doi: 10.1104/pp.112.3.931.

DOI:10.1104/pp.112.3.931
PMID:8938403
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC158020/
Abstract

Immunolocalization of mannitol dehydrogenase (MTD) in celery (Apium graveolens L.) suspension cells and plants showed that MTD is a cytoplasmic enzyme. MTD was found in the meristems of celery root apices, in young expanding leaves, in the vascular cambium, and in the phloem, including sieve-element/companion cell complexes, parenchyma, and in the exuding phloem sap of cut petioles. Suspension cells that were grown in medium with mannitol as the sole carbon source showed a high anti-MTD cross-reaction in the cytoplasm, whereas cells that were grown in sucrose-containing medium showed little or no cross-reaction. Gel-blot analysis of proteins from vascular and nonvascular tissues of mature celery petioles showed a strong anti-MTD sera cross-reactive band, corresponding to the 40-kD molecular mass of MTD in vascular extracts, but no cross-reactive bands in nonvascular extracts. The distribution pattern of MTD within celery plants and in cell cultures that were grown on different carbon sources is consistent with the hypothesis that the Mtd gene may be regulated by sugar repression. Additionally, a developmental component may regulate the distribution of MTD within celery plants.

摘要

甘露醇脱氢酶(MTD)在芹菜(Apium graveolens L.)悬浮细胞和植株中的免疫定位表明,MTD是一种细胞质酶。在芹菜根尖分生组织、正在扩展的幼叶、维管形成层以及韧皮部中均发现了MTD,韧皮部包括筛管分子/伴胞复合体、薄壁组织以及切割叶柄渗出的韧皮部汁液。在以甘露醇作为唯一碳源的培养基中生长的悬浮细胞,其细胞质中显示出高抗MTD交叉反应,而在含蔗糖培养基中生长的细胞则显示出很少或没有交叉反应。对成熟芹菜叶柄维管组织和非维管组织中的蛋白质进行凝胶印迹分析表明,抗MTD血清有一条强交叉反应带,对应于维管提取物中MTD的40-kD分子量,但在非维管提取物中没有交叉反应带。MTD在芹菜植株内以及在以不同碳源生长的细胞培养物中的分布模式与Mtd基因可能受糖抑制调控的假说一致。此外,一个发育成分可能调控MTD在芹菜植株内的分布。