Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves.

Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves. Research Abstract Details 

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Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves. Abstract Text:

Jinling Yang,Lu Ma,Yan Zhang,Fang Fang,Lijia Li,Jinling Yang,Lu Ma,Yan Zhang,Fang Fang,Lijia Li,Jinling Yang,Lu Ma,Yan Zhang,Fang Fang,Lijia Li,

Flow cytometric analysis of mitochondria isolated from maize leaves revealed two distinct rhodamine-123-stained fluorescence populations distinguishable by their main fluorescence channel. Further microscopic observation of mitochondria stained with Janus Green B and rhodamine-123 revealed the occurrence of differently sized mitochondrial particles. It was shown by pulsed-field gel electrophoresis that the DNA from the isolated mitochondria ranged in size from 45 to 100 kb. These results suggest that different types of mitochondria with different physiological status, mass, and genomic DNA size probably coexist and carry out different physiological functions throughout the whole process of maize leaf growth and development.

Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves. Publishing Authors By Initials

J Yang,L Ma,Y Zhang,F Fang,L Li,J Yang,L Ma,Y Zhang,F Fang,L Li,J Yang,L Ma,Y Zhang,F Fang,L Li,

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Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: Protoplasma

VOLUME: 231

Page Numbers: 249-52

Journal Abbreviation: Protoplasma

ISSN: 0033-183X

DAY: 10

MONTH: 10

YEAR: 2007

Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves. Information

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LANGUAGE: eng

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Grant and Affiliation Information for Flow cytometric identification of two different rhodamine-123-stained mitochondrial populations in maize leaves.

AFFILIATION: Key Laboratory for Plant Developmental Biology of the Ministry of Education, College of Life Sciences, Wuhan University, Wuhan, People's Republic of China. ljli@whu.edu.cn

Country: Austria

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MEDLINETA: Protoplasma

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