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Inhibition of phenylpropanoid biosynthesis increases cell wall digestibility protoplast isolation and facilitates sustained cell division in American elm (Ulmus americana)

机译：抑制苯丙烷类生物合成可增加细胞壁的消化率原生质体分离并促进美洲榆（Ulmus americana）的持续细胞分裂

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摘要

BackgroundProtoplast technologies offer unique opportunities for fundamental research and to develop novel germplasm through somatic hybridization, organelle transfer, protoclonal variation, and direct insertion of DNA. Applying protoplast technologies to develop Dutch elm disease resistant American elms (Ulmus americana L.) was proposed over 30 years ago, but has not been achieved. A primary factor restricting protoplast technology to American elm is the resistance of the cell walls to enzymatic degradation and a long lag phase prior to cell wall re-synthesis and cell division.

机译：背景原生质体技术为基础研究和通过体细胞杂交，细胞器转移，原生克隆变异和直接插入DNA提供了新的种质资源，提供了独特的机会。 30年前，有人提出将原生质体技术用于开发抗荷兰榆树病的美洲榆树（Ulmus americana L.），但尚未实现。将原生质体技术限制在美洲榆树上的主要因素是细胞壁对酶促降解的抵抗力以及在细胞壁重新合成和细胞分裂之前的长时间滞后阶段。

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期刊名称 BMC Plant Biology
作者
A Maxwell P Jones; Abhishek Chattopadhyay; Mukund Shukla; Jerzy Zoń; Praveen K Saxena;
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作者单位

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年(卷),期 2012(12),-1
年度 2012
页码 75
总页数 13
原文格式 PDF
正文语种
中图分类生物学;
关键词
Hydroxycinnamic acid 2-aminoindane-2-phosphonic acid Protoplast Cell wall Digestibility American elm;

机译：羟基肉桂酸;2-氨基茚满-2-膦酸;原生质体;细胞壁;消化率;美洲榆;

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1. Inhibition of phenylpropanoid biosynthesis increases cell wall digestibility, protoplast isolation, and facilitates sustained cell division in American elm (Ulmus americana) [J] . A Maxwell P Jones, Abhishek Chattopadhyay, Mukund Shukla, BMC Plant Biology . 2012,第1期

机译：抑制苯丙烷类生物合成可增加细胞壁的消化率，原生质体分离并促进美洲榆（Ulmus americana）的持续细胞分裂
2. In vitro conservation of American elm (Ulmus americana): potential roleTI In vitro conservation of American elm (Ulmus americana): potential role of auxin metabolism in sustained plant proliferation [J] . Shukla MR, Jones AMP, Sullivan JA, Canadian Journal of Forest Research . 2012,第4期

机译：美国榆（美国榆）的体外保护：TI的体外保护：植物生长素代谢在植物持续增殖中的潜在作用
3. Protoplast-to-plant regeneration of American elm (Ulmus americana) [J] . Jones A. M. P., Shukla M. R., Biswas G. C. G., Protoplasma: An International Journal of Cell Biology . 2015,第3期

机译：美国榆树原生质体至植物的再生
4. Comparative Study of Cell Wall Regeneration by Protoplasts and Bean Tissues (Vicia Faba L.) and Effect of Microtubules Inhibitors on Biosynthesis of Protoplasts Cell Walls [C] . Khusainov M.B., Gazizov I.S. Second International Conference on Sustainable Agriculture for Food, Energy and Industry Vol.2 . 2002

机译：原生质体和豆组织（蚕豆（Vicia Faba L.））细胞壁再生的比较研究以及微管抑制剂对原生质体细胞壁生物合成的影响
5. Isolation and characterization of neurospora cell wall biosynthesis and anastomosis-defective mutants. [D] . Aldabbous, Mash'el Salman. 2009

机译：神经孢子细胞壁生物合成和吻合缺陷突变体的分离和表征。
6. Mutation of 4-coumarate: coenzyme A ligase 1 gene affects lignin biosynthesis and increases the cell wall digestibility in maize brown midrib5 mutants [O] . Wangdan Xiong, Zhenying Wu, Yuchen Liu, 2019

机译：4-香豆酸酯的突变：辅酶A连接酶1基因影响木质素的生物合成并增加玉米褐midrib5突变体的细胞壁消化率
7. Inhibition of phenylpropanoid biosynthesis increases cell wall digestibility, protoplast isolation, and facilitates sustained cell division in American elm (Ulmus americana) [O] . Jones A Maxwell P, Chattopadhyay Abhishek, Shukla Mukund, 2012

机译：抑制苯丙烷类生物合成可增加细胞壁消化率，原生质体分离，并促进美国榆树的持续细胞分裂（美洲榆树）

Inhibition of phenylpropanoid biosynthesis increases cell wall digestibility protoplast isolation and facilitates sustained cell division in American elm (Ulmus americana)

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