SSR1 is a vital regulator in plant mitochondrial iron-sulfur biosynthesis

Abstract The Arabidopsis SHORT AND SWOLLEN ROOT1 (SSR1) gene encodes a mitochondrial TPR domain-containing protein and was previously reported to function in maintaining mitochondria function. In a screen for suppressors of the short-root phenotype of the loss-of-function mutant ssr1-2, two mutation...

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Main Authors Feng, Xuanjun, Han, Huiling, Bonea, Diana, Liu, Jie, Wenhan Ying, Cai, Yuanyuan, Zhang, Min, Lu, Yanli, Zhao, Rongmin, Hua, Xuejun
Format Paper
LanguageEnglish
Published Cold Spring Harbor Cold Spring Harbor Laboratory Press 10.03.2021
Cold Spring Harbor Laboratory
Edition1.1
Subjects
Amino acid substitution
Biosynthesis
Enzymatic activity
Iron-sulfur proteins
Membrane potential
Mitochondria
Phenotypes
Plant Biology
Sulfur
Sulfur proteins
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ISSN2692-8205
2692-8205
DOI10.1101/2021.03.09.434627

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Abstract Abstract The Arabidopsis SHORT AND SWOLLEN ROOT1 (SSR1) gene encodes a mitochondrial TPR domain-containing protein and was previously reported to function in maintaining mitochondria function. In a screen for suppressors of the short-root phenotype of the loss-of-function mutant ssr1-2, two mutations, sus1 and sus2 (suppressor of ssr1-2), were isolated. sus1 and sus2 result from G87D and T55M single amino acid substitution in HSCA2 (At5g09590) and ISU1 (At4g22220), both of which are core components in iron-sulfur cluster biosynthesis pathway in mitochondria (ISC). We here demonstrated that SSR1 displayed a strong chaperone-like activity and was able to enhance the binding of HSCA2 to ISU1, an essential step for the normal operation of ISC machinery. Accordingly, the enzymatic activities of several iron-sulfur proteins, the mitochondrial membrane potential and ATP content are reduced in ssr1-2. Interestingly, SSR1 appears to exist only in plant lineages, possibly conferring adaptive advantages on plant ISC machinery to environment.
AbstractList Abstract The Arabidopsis SHORT AND SWOLLEN ROOT1 (SSR1) gene encodes a mitochondrial TPR domain-containing protein and was previously reported to function in maintaining mitochondria function. In a screen for suppressors of the short-root phenotype of the loss-of-function mutant ssr1-2, two mutations, sus1 and sus2 (suppressor of ssr1-2), were isolated. sus1 and sus2 result from G87D and T55M single amino acid substitution in HSCA2 (At5g09590) and ISU1 (At4g22220), both of which are core components in iron-sulfur cluster biosynthesis pathway in mitochondria (ISC). We here demonstrated that SSR1 displayed a strong chaperone-like activity and was able to enhance the binding of HSCA2 to ISU1, an essential step for the normal operation of ISC machinery. Accordingly, the enzymatic activities of several iron-sulfur proteins, the mitochondrial membrane potential and ATP content are reduced in ssr1-2. Interestingly, SSR1 appears to exist only in plant lineages, possibly conferring adaptive advantages on plant ISC machinery to environment.
The Arabidopsis SHORT AND SWOLLEN ROOT1 (SSR1) gene encodes a mitochondrial TPR domain-containing protein and was previously reported to function in maintaining mitochondria function. In a screen for suppressors of the short-root phenotype of the loss-of-function mutant ssr1-2, two mutations, sus1 and sus2 (suppressor of ssr1-2), were isolated. sus1 and sus2 result from G87D and T55M single amino acid substitution in HSCA2 (At5g09590) and ISU1 (At4g22220), both of which are core components in iron-sulfur cluster biosynthesis pathway in mitochondria (ISC). We here demonstrated that SSR1 displayed a strong chaperone-like activity and was able to enhance the binding of HSCA2 to ISU1, an essential step for the normal operation of ISC machinery. Accordingly, the enzymatic activities of several iron-sulfur proteins, the mitochondrial membrane potential and ATP content are reduced in ssr1-2. Interestingly, SSR1 appears to exist only in plant lineages, possibly conferring adaptive advantages on plant ISC machinery to environment.
Author Liu, Jie
Cai, Yuanyuan
Feng, Xuanjun
Hua, Xuejun
Wenhan Ying
Zhao, Rongmin
Bonea, Diana
Lu, Yanli
Han, Huiling
Zhang, Min
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Snippet Abstract The Arabidopsis SHORT AND SWOLLEN ROOT1 (SSR1) gene encodes a mitochondrial TPR domain-containing protein and was previously reported to function in...
The Arabidopsis SHORT AND SWOLLEN ROOT1 (SSR1) gene encodes a mitochondrial TPR domain-containing protein and was previously reported to function in...
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proquest
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Aggregation Database
SubjectTerms Amino acid substitution
Biosynthesis
Enzymatic activity
Iron-sulfur proteins
Membrane potential
Mitochondria
Phenotypes
Plant Biology
Sulfur
Sulfur proteins
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Title SSR1 is a vital regulator in plant mitochondrial iron-sulfur biosynthesis
URI https://www.proquest.com/docview/2504961442
https://www.biorxiv.org/content/10.1101/2021.03.09.434627
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