FUNGAL ENDOPHYTES INTRINSICALLY ASSOCIATED WITH MICROPROPAGATED PLANTS REGENERATED FROM NATIVE BOUTELOUA ERIOPODA TORR. AND ATRIPLEX CANESCENS (PURSH) NUTT.

Jerry R. Barrow; Pedro Osuna-Avila; Isaac Reyes-Vera

首页> 外文期刊>In Vitro Cellular and Development Biology. Plant: Journal of the Tissue Culture Association >FUNGAL ENDOPHYTES INTRINSICALLY ASSOCIATED WITH MICROPROPAGATED PLANTS REGENERATED FROM NATIVE BOUTELOUA ERIOPODA TORR. AND ATRIPLEX CANESCENS (PURSH) NUTT.

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FUNGAL ENDOPHYTES INTRINSICALLY ASSOCIATED WITH MICROPROPAGATED PLANTS REGENERATED FROM NATIVE BOUTELOUA ERIOPODA TORR. AND ATRIPLEX CANESCENS (PURSH) NUTT.

机译：真菌内生菌与从原生百寿花鸟RR产生的微繁殖植物有内在联系。和ATRIPLEX CANESCENS（PURSH）坚果。

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Black grama (Bouteloua eriopoda) and fourwing saltbush (Atriplex canescens) are important grass and shrub species in arid rangelands of the northern Chihuahuan Desert. They are naturally colonized by dark septate endophytic fungi that cannot be eliminated by seed disinfestation. Plants were regenerated from both species and appeared to be fungus-free in axenic cultures. Analysis of callus and regenerated plants of both species using dual staining with light and scanning electron microscopy revealed fungal endophytes intrinsically associated with cells, roots and leaves of regenerated plants that are also associated with native plants. Fungal layers and biofilms prevent direct exposure of callus, root or leaf tissues to the external environment. Micropropagation is a valuable tool for identifying key fungal endophytes that enhance drought tolerance in native desert plants.

机译：黑色格拉玛（Bouteloua eriopoda）和长翅salt（Atriplex canescens）是奇瓦瓦沙漠北部干旱牧场的重要草和灌木物种。它们自然被深色的隔生性内生真菌定殖，而种子灭除不能消除它们。从这两种物种中再生出植物，并且在无性培养物中似乎是无真菌的。使用光和扫描电子显微镜双重染色对两种物种的愈伤组织和再生植物进行分析，发现真菌内生菌与再生植物的细胞，根和叶内在关联，而再生植物也与天然植物有关。真菌层和生物膜可防止愈伤组织，根或叶组织直接暴露于外部环境。微繁殖是鉴定重要真菌内生植物的宝贵工具，这些真菌内生植物增强了天然荒漠植物的耐旱性。

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《In Vitro Cellular and Development Biology. Plant: Journal of the Tissue Culture Association》 |2004年第6期|共5页
作者
Jerry R. Barrow; Pedro Osuna-Avila; Isaac Reyes-Vera;
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正文语种 eng
中图分类植物学;
关键词
arid; biofilms; drought; mycorrhizae; symbiosis;

机译：干旱;生物膜;干旱;菌根;共生;
入库时间 2022-08-18 10:25:59

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1. FUNGAL ENDOPHYTES INTRINSICALLY ASSOCIATED WITH MICROPROPAGATED PLANTS REGENERATED FROM NATIVE BOUTELOUA ERIOPODA TORR. AND ATRIPLEX CANESCENS (PURSH) NUTT. [J] . Jerry R. Barrow, Pedro Osuna-Avila, Isaac Reyes-Vera In Vitro Cellular and Development Biology. Plant: Journal of the Tissue Culture Association . 2004,第6期

机译：真菌内生菌与从原生百寿花鸟RR产生的微繁殖植物有内在联系。和ATRIPLEX CANESCENS（PURSH）坚果。
2. Seasonal changes of copper and zinc concentrations in browse saltbush (Atriplex canescens (Pursh) Nutt.) from the Algerian arid rangelands [J] . Nedjimi Bouzid African Journal of Range & Forage Science . 2020,第2期

机译：来自阿尔及利亚干旱牧场的浏览盐水盐（Atriplex Canescens（Pursh）螺母的铜浓度季节变化
3. Physiological and Biochemical behaviour of Atriplex canescens (Pursh) Nutt. (Caryophyllales Chenopodiaceae) under salinity stress [J] . Amir Brinis, Moulay Belkhodja Biodiversity Journal . 2018,第1期

机译：滨藜（Aurplex canescens（Pursh）Nutt）的生理生化行为。盐胁迫下的石竹（石竹科）
4. Foliar Fungal Endophytes Associated with Native Hawaiian Plants and the Biogeography of their Interactions across the Archipelago [D] . Cobian, Gerald Manuel 2018

机译：与夏威夷本土植物相关的叶片真菌内生菌及其在整个群岛上相互作用的生物地理学
5. Endophyte Microbiome Diversity in Micropropagated Atriplex canescens and Atriplex torreyi var griffithsii [O] . Mary E. Lucero, Adrian Unc, Peter Cooke, 2011

机译：微繁殖滨藜和滨藜中内生菌的微生物组多样性
6. A Heavy Metal-Associated Protein (AcHMA1) from the Halophyte, Atriplex canescens (Pursh) Nutt., Confers Tolerance to Iron and Other Abiotic Stresses When Expressed in Saccharomyces cerevisiae [O] . Xin-Hua Sun, Gang Yu, Jing-Tao Li, 2014

机译：来自盐生植物atriplex canescens（pursh）Nutt。的重金属相关蛋白（acHma1），当在酿酒酵母中表达时赋予对铁和其他非生物胁迫的耐受性

FUNGAL ENDOPHYTES INTRINSICALLY ASSOCIATED WITH MICROPROPAGATED PLANTS REGENERATED FROM NATIVE BOUTELOUA ERIOPODA TORR. AND ATRIPLEX CANESCENS (PURSH) NUTT.

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