Maize high chlorophyll fluorescent 60 mutation is caused by an Ac disruption of the gene encoding the chloroplast ribosomal small subunit protein 17

Summary The maize mutation high chlorophyll fluorescence 60‐muTable 1 (hcf60‐m1), generated through Activator (Ac) tagging, has insufficient photosynthetic electron transport. Here we show that the Hcf60 gene encodes a protein with substantial amino acid similarity to plant plastid and bacterial rib...

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Veröffentlicht in:	The Plant journal : for cell and molecular biology 2000-02, Vol.21 (4), p.317-327
Hauptverfasser:	Schultes, Neil P., Sawers, Ruairidh J. H., Brutnell, Thomas P., Krueger, Roger W.
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Sprache:	eng
Schlagworte:	Agronomy. Soil science and plant productions Amino Acid Sequence Arabidopsis Proteins Bacteria - genetics Base Sequence Biological and medical sciences Chloroplasts - genetics Chloroplasts - metabolism Classical and quantitative genetics. Population genetics. Molecular genetics Fundamental and applied biological sciences. Psychology Generalities. Genetics. Plant material Genes, Plant Genetics and breeding of economic plants hcf60 gene Molecular genetics Molecular Sequence Data Mutagenesis, Insertional Mutation Photosynthesis Plant Proteins - genetics Recombinant Proteins - biosynthesis Recombinant Proteins - chemistry ribosomal protein S17 Ribosomal Proteins - chemistry Ribosomal Proteins - genetics rRNA Sequence Alignment Sequence Homology, Amino Acid transposon Activator Zea mays Zea mays - genetics
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description	Summary The maize mutation high chlorophyll fluorescence 60‐muTable 1 (hcf60‐m1), generated through Activator (Ac) tagging, has insufficient photosynthetic electron transport. Here we show that the Hcf60 gene encodes a protein with substantial amino acid similarity to plant plastid and bacterial ribosomal small subunit protein 17 (RPS17) proteins. The lack of detectable HCF60 transcripts in mutant leaves, and insertion of the transposed Ac element 17 bp upstream of the start of translation in the mutated locus, suggest that little if any RPS17 is produced. The mutant phenotype is consistent with reduced plastid translation. Seedling lethal hcf60‐m1 plants display temperature and light‐dependent chlorophyll deficiencies, a depletion of plastid rRNA pools, and few high‐molecular‐weight polysomal complexes. Growth under moderate light conditions (27°C, 100 μE m−2 sec−1) allows for substantial chlorophyll accumulation in mutant leaves, yet the number of functional photosystem II complexes appears low. Nevertheless, the presence of a limited but intact C4 system indicates that some plastid translation occurs. 1 . Leaf chlorophyll content under different growth conditions 17°C, 100 μE m−2 sec−1 27°C, 100 μE m−2 sec−1 Greenhouse 1st leaf 1st leaf 2nd leaf 1st leaf WT hcf60 WT hcf60 WT hcf60 WT hcf60 Total chlorophyll 0.385 ± 0.42 >0.002 ±0.00017 1.11 ±0.15 0.79 ± 0.1 1.3 ±0.2 0.71 ± 0.17 0.89 ±0.077 0.026 ± 0.012 μg mg−1 tissue n = 4 n = 4 n= 7 n= 7 n= 7 n= 7 n = 4 n = 3 Total chlorophyll 100 >0.5 100 71 100 55 100 2.9 % WT Chlorophyll a/b 2.12 ±0.2 – 2.54 ±0.22 1.89 ±0.16 2.65 ±0.26 1.97 ±0.12 3.02 ±0.11 2.87 ±0.23
doi_str_mv	10.1046/j.1365-313x.2000.00676.x
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Growth under moderate light conditions (27°C, 100 μE m−2 sec−1) allows for substantial chlorophyll accumulation in mutant leaves, yet the number of functional photosystem II complexes appears low. Nevertheless, the presence of a limited but intact C4 system indicates that some plastid translation occurs. 1 . 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H.</creatorcontrib><creatorcontrib>Brutnell, Thomas P.</creatorcontrib><creatorcontrib>Krueger, Roger W.</creatorcontrib><title>Maize high chlorophyll fluorescent 60 mutation is caused by an Ac disruption of the gene encoding the chloroplast ribosomal small subunit protein 17</title><title>The Plant journal : for cell and molecular biology</title><addtitle>Plant J</addtitle><description>Summary The maize mutation high chlorophyll fluorescence 60‐muTable 1 (hcf60‐m1), generated through Activator (Ac) tagging, has insufficient photosynthetic electron transport. Here we show that the Hcf60 gene encodes a protein with substantial amino acid similarity to plant plastid and bacterial ribosomal small subunit protein 17 (RPS17) proteins. The lack of detectable HCF60 transcripts in mutant leaves, and insertion of the transposed Ac element 17 bp upstream of the start of translation in the mutated locus, suggest that little if any RPS17 is produced. The mutant phenotype is consistent with reduced plastid translation. Seedling lethal hcf60‐m1 plants display temperature and light‐dependent chlorophyll deficiencies, a depletion of plastid rRNA pools, and few high‐molecular‐weight polysomal complexes. Growth under moderate light conditions (27°C, 100 μE m−2 sec−1) allows for substantial chlorophyll accumulation in mutant leaves, yet the number of functional photosystem II complexes appears low. Nevertheless, the presence of a limited but intact C4 system indicates that some plastid translation occurs. 1 . Leaf chlorophyll content under different growth conditions 17°C, 100 μE m−2 sec−1 27°C, 100 μE m−2 sec−1 Greenhouse 1st leaf 1st leaf 2nd leaf 1st leaf WT hcf60 WT hcf60 WT hcf60 WT hcf60 Total chlorophyll 0.385 ± 0.42 >0.002 ±0.00017 1.11 ±0.15 0.79 ± 0.1 1.3 ±0.2 0.71 ± 0.17 0.89 ±0.077 0.026 ± 0.012 μg mg−1 tissue n = 4 n = 4 n= 7 n= 7 n= 7 n= 7 n = 4 n = 3 Total chlorophyll 100 >0.5 100 71 100 55 100 2.9 % WT Chlorophyll a/b 2.12 ±0.2 – 2.54 ±0.22 1.89 ±0.16 2.65 ±0.26 1.97 ±0.12 3.02 ±0.11 2.87 ±0.23</description><subject>Agronomy. Soil science and plant productions</subject><subject>Amino Acid Sequence</subject><subject>Arabidopsis Proteins</subject><subject>Bacteria - genetics</subject><subject>Base Sequence</subject><subject>Biological and medical sciences</subject><subject>Chloroplasts - genetics</subject><subject>Chloroplasts - metabolism</subject><subject>Classical and quantitative genetics. Population genetics. Molecular genetics</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Generalities. Genetics. Plant material</subject><subject>Genes, Plant</subject><subject>Genetics and breeding of economic plants</subject><subject>hcf60 gene</subject><subject>Molecular genetics</subject><subject>Molecular Sequence Data</subject><subject>Mutagenesis, Insertional</subject><subject>Mutation</subject><subject>Photosynthesis</subject><subject>Plant Proteins - genetics</subject><subject>Recombinant Proteins - biosynthesis</subject><subject>Recombinant Proteins - chemistry</subject><subject>ribosomal protein S17</subject><subject>Ribosomal Proteins - chemistry</subject><subject>Ribosomal Proteins - genetics</subject><subject>rRNA</subject><subject>Sequence Alignment</subject><subject>Sequence Homology, Amino Acid</subject><subject>transposon Activator</subject><subject>Zea mays</subject><subject>Zea mays - genetics</subject><issn>0960-7412</issn><issn>1365-313X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNkU2PFCEQhonRuOPqXzAcjLduoWmgSbxsNn5mN-5hN_FGaBqmmdAwQnec8Xf4g2U-jHv0UkWqnqo3xQsAxKjGqGXvNjUmjFYEk13dIIRqhBhn9e4JWP1tfH8KVkgwVPEWNxfgRc4bhDAnrH0OLjDitGs7sgK_b5X7ZeDo1iPUo48pbse999D6JSaTtQkzZAhOy6xmFwN0GWq1ZDPAfg9VgFcaDi6nZXvsRgvn0cC1CQaaoOPgwvpYOa_2Ks8wuT7mOCkPcwklLv0S3Ay3Kc7GBYj5S_DMKp_Nq3O-BA8fP9xff65uvn36cn11U2naCFYpTXhDTCeUoi3lomSrKColrDW2PSUd4wNpbGOZEIITq7ASXUcJ5Yg0PbkEb097i_SPxeRZTq6c7L0KJi5ZYk4RxwwVsDuBOsWck7Fym9yk0l5iJA-OyI08fLw8OCIPjsijI3JXRl-fNZZ-MsOjwZMFBXhzBlTWytukgnb5H9cI0ZKmYO9P2E_nzf6_9eX93dfyIH8AL16o_Q</recordid><startdate>200002</startdate><enddate>200002</enddate><creator>Schultes, Neil P.</creator><creator>Sawers, Ruairidh J. 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H. ; Brutnell, Thomas P. ; Krueger, Roger W.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c5296-ac3723e89aa545799aafa5023e1cc1fb53867d32f2f699973fa1a9885357032b3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2000</creationdate><topic>Agronomy. Soil science and plant productions</topic><topic>Amino Acid Sequence</topic><topic>Arabidopsis Proteins</topic><topic>Bacteria - genetics</topic><topic>Base Sequence</topic><topic>Biological and medical sciences</topic><topic>Chloroplasts - genetics</topic><topic>Chloroplasts - metabolism</topic><topic>Classical and quantitative genetics. Population genetics. Molecular genetics</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Generalities. Genetics. Plant material</topic><topic>Genes, Plant</topic><topic>Genetics and breeding of economic plants</topic><topic>hcf60 gene</topic><topic>Molecular genetics</topic><topic>Molecular Sequence Data</topic><topic>Mutagenesis, Insertional</topic><topic>Mutation</topic><topic>Photosynthesis</topic><topic>Plant Proteins - genetics</topic><topic>Recombinant Proteins - biosynthesis</topic><topic>Recombinant Proteins - chemistry</topic><topic>ribosomal protein S17</topic><topic>Ribosomal Proteins - chemistry</topic><topic>Ribosomal Proteins - genetics</topic><topic>rRNA</topic><topic>Sequence Alignment</topic><topic>Sequence Homology, Amino Acid</topic><topic>transposon Activator</topic><topic>Zea mays</topic><topic>Zea mays - genetics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Schultes, Neil P.</creatorcontrib><creatorcontrib>Sawers, Ruairidh J. H.</creatorcontrib><creatorcontrib>Brutnell, Thomas P.</creatorcontrib><creatorcontrib>Krueger, Roger W.</creatorcontrib><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Technology Research Database</collection><collection>Engineering Research Database</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>Genetics Abstracts</collection><jtitle>The Plant journal : for cell and molecular biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Schultes, Neil P.</au><au>Sawers, Ruairidh J. H.</au><au>Brutnell, Thomas P.</au><au>Krueger, Roger W.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Maize high chlorophyll fluorescent 60 mutation is caused by an Ac disruption of the gene encoding the chloroplast ribosomal small subunit protein 17</atitle><jtitle>The Plant journal : for cell and molecular biology</jtitle><addtitle>Plant J</addtitle><date>2000-02</date><risdate>2000</risdate><volume>21</volume><issue>4</issue><spage>317</spage><epage>327</epage><pages>317-327</pages><issn>0960-7412</issn><eissn>1365-313X</eissn><abstract>Summary The maize mutation high chlorophyll fluorescence 60‐muTable 1 (hcf60‐m1), generated through Activator (Ac) tagging, has insufficient photosynthetic electron transport. Here we show that the Hcf60 gene encodes a protein with substantial amino acid similarity to plant plastid and bacterial ribosomal small subunit protein 17 (RPS17) proteins. The lack of detectable HCF60 transcripts in mutant leaves, and insertion of the transposed Ac element 17 bp upstream of the start of translation in the mutated locus, suggest that little if any RPS17 is produced. The mutant phenotype is consistent with reduced plastid translation. Seedling lethal hcf60‐m1 plants display temperature and light‐dependent chlorophyll deficiencies, a depletion of plastid rRNA pools, and few high‐molecular‐weight polysomal complexes. Growth under moderate light conditions (27°C, 100 μE m−2 sec−1) allows for substantial chlorophyll accumulation in mutant leaves, yet the number of functional photosystem II complexes appears low. Nevertheless, the presence of a limited but intact C4 system indicates that some plastid translation occurs. 1 . Leaf chlorophyll content under different growth conditions 17°C, 100 μE m−2 sec−1 27°C, 100 μE m−2 sec−1 Greenhouse 1st leaf 1st leaf 2nd leaf 1st leaf WT hcf60 WT hcf60 WT hcf60 WT hcf60 Total chlorophyll 0.385 ± 0.42 >0.002 ±0.00017 1.11 ±0.15 0.79 ± 0.1 1.3 ±0.2 0.71 ± 0.17 0.89 ±0.077 0.026 ± 0.012 μg mg−1 tissue n = 4 n = 4 n= 7 n= 7 n= 7 n= 7 n = 4 n = 3 Total chlorophyll 100 >0.5 100 71 100 55 100 2.9 % WT Chlorophyll a/b 2.12 ±0.2 – 2.54 ±0.22 1.89 ±0.16 2.65 ±0.26 1.97 ±0.12 3.02 ±0.11 2.87 ±0.23</abstract><cop>Oxford, UK</cop><pub>Blackwell Science Ltd</pub><pmid>10758483</pmid><doi>10.1046/j.1365-313x.2000.00676.x</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Agronomy. Soil science and plant productions Amino Acid Sequence Arabidopsis Proteins Bacteria - genetics Base Sequence Biological and medical sciences Chloroplasts - genetics Chloroplasts - metabolism Classical and quantitative genetics. Population genetics. Molecular genetics Fundamental and applied biological sciences. Psychology Generalities. Genetics. Plant material Genes, Plant Genetics and breeding of economic plants hcf60 gene Molecular genetics Molecular Sequence Data Mutagenesis, Insertional Mutation Photosynthesis Plant Proteins - genetics Recombinant Proteins - biosynthesis Recombinant Proteins - chemistry ribosomal protein S17 Ribosomal Proteins - chemistry Ribosomal Proteins - genetics rRNA Sequence Alignment Sequence Homology, Amino Acid transposon Activator Zea mays Zea mays - genetics
title	Maize high chlorophyll fluorescent 60 mutation is caused by an Ac disruption of the gene encoding the chloroplast ribosomal small subunit protein 17
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