Induction of a Major Leaf Acid Phosphatase Does Not Confer Adaptation to Low Phosphorus Availability in Common Bean

Acid phosphatase is believed to be important for phosphorus scavenging and remobilization in plants, but its role in plant adaptation to low phosphorus availability has not been critically evaluated. To address this issue, we compared acid phosphatase activity (APA) in leaves of common bean (Phaseol...

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Veröffentlicht in:	Plant physiology (Bethesda) 2001-04, Vol.125 (4), p.1901-1911
Hauptverfasser:	Xiaolong Yan, Liao, Hong, Trull, Melanie C., Steve E. Beebe, Lynch, Jonathan P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acid Phosphatase - genetics Acid Phosphatase - metabolism Agronomy. Soil science and plant productions Beans Biological and medical sciences Chromosome Mapping Crosses, Genetic Economic plant physiology Environmental Stress and Adaptation Fabaceae - enzymology Fabaceae - genetics Fabaceae - physiology Fundamental and applied biological sciences. Psychology Gene mapping Genetic Linkage Genetic Markers Genotype Genotypes Isoenzymes - genetics Isoenzymes - metabolism Leaves Mineral nutrition Nutrition. Photosynthesis. Respiration. Metabolism Phosphatases Phosphates Phosphorus Phosphorus - metabolism Phosphorus acids Phosphorus cycle Plant Leaves - enzymology Plants Plants, Medicinal Protein isoforms Quantitative Trait, Heritable Recombination, Genetic Restriction Mapping
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container_end_page	1911
container_issue	4
container_start_page	1901
container_title	Plant physiology (Bethesda)
container_volume	125
creator	Xiaolong Yan Liao, Hong Trull, Melanie C. Steve E. Beebe Lynch, Jonathan P.
description	Acid phosphatase is believed to be important for phosphorus scavenging and remobilization in plants, but its role in plant adaptation to low phosphorus availability has not been critically evaluated. To address this issue, we compared acid phosphatase activity (APA) in leaves of common bean (Phaseolus vulgaris) in a phosphorus-inefficient genotype (DOR364), a phosphorus-efficient genotype (G19833), and their $\text{F}_{5.10}$ recombinant inbred lines (RILs). Phosphorus deficiency substantially increased leaf APA, but APA was much higher and more responsive to phosphorus availability in DOR364 than in G19833. Leaf APA segregated in the RILs, with two discrete groups having either high (mean = 1.71 μmol/mg protein/min) or low (0.36 μmol/mg protein/min) activity. A chi-square test indicated that the observed difference might be controlled by a single gene. Non-denaturing protein electrophoresis revealed that there are four visible isoforms responsible for total APA in common bean, and that the difference in APA between contrasting genotypes could be attributed to the existence of a single major isoform. Qualitative mapping of the APA trait and quantitative trait loci analysis with molecular markers indicated that a major gene contributing to APA is located on linkage group B03 of the unified common bean map. This locus was not associated with loci conferring phosphorus acquisition efficiency or phosphorus use efficiency. RILs contrasting for APA had similar phosphorus pools in old and young leaves under phosphorus stress, arguing against a role for APA in phosphorus remobilization. Our results do not support a major role for leaf APA induction in regulating plant adaptation to phosphorus deficiency.
doi_str_mv	10.1104/pp.125.4.1901
format	Article
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Beebe ; Lynch, Jonathan P.</creator><creatorcontrib>Xiaolong Yan ; Liao, Hong ; Trull, Melanie C. ; Steve E. Beebe ; Lynch, Jonathan P.</creatorcontrib><description>Acid phosphatase is believed to be important for phosphorus scavenging and remobilization in plants, but its role in plant adaptation to low phosphorus availability has not been critically evaluated. To address this issue, we compared acid phosphatase activity (APA) in leaves of common bean (Phaseolus vulgaris) in a phosphorus-inefficient genotype (DOR364), a phosphorus-efficient genotype (G19833), and their $\text{F}_{5.10}$ recombinant inbred lines (RILs). Phosphorus deficiency substantially increased leaf APA, but APA was much higher and more responsive to phosphorus availability in DOR364 than in G19833. Leaf APA segregated in the RILs, with two discrete groups having either high (mean = 1.71 μmol/mg protein/min) or low (0.36 μmol/mg protein/min) activity. A chi-square test indicated that the observed difference might be controlled by a single gene. Non-denaturing protein electrophoresis revealed that there are four visible isoforms responsible for total APA in common bean, and that the difference in APA between contrasting genotypes could be attributed to the existence of a single major isoform. Qualitative mapping of the APA trait and quantitative trait loci analysis with molecular markers indicated that a major gene contributing to APA is located on linkage group B03 of the unified common bean map. This locus was not associated with loci conferring phosphorus acquisition efficiency or phosphorus use efficiency. RILs contrasting for APA had similar phosphorus pools in old and young leaves under phosphorus stress, arguing against a role for APA in phosphorus remobilization. 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Psychology ; Gene mapping ; Genetic Linkage ; Genetic Markers ; Genotype ; Genotypes ; Isoenzymes - genetics ; Isoenzymes - metabolism ; Leaves ; Mineral nutrition ; Nutrition. Photosynthesis. Respiration. 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Beebe</creatorcontrib><creatorcontrib>Lynch, Jonathan P.</creatorcontrib><title>Induction of a Major Leaf Acid Phosphatase Does Not Confer Adaptation to Low Phosphorus Availability in Common Bean</title><title>Plant physiology (Bethesda)</title><addtitle>Plant Physiol</addtitle><description>Acid phosphatase is believed to be important for phosphorus scavenging and remobilization in plants, but its role in plant adaptation to low phosphorus availability has not been critically evaluated. To address this issue, we compared acid phosphatase activity (APA) in leaves of common bean (Phaseolus vulgaris) in a phosphorus-inefficient genotype (DOR364), a phosphorus-efficient genotype (G19833), and their $\text{F}_{5.10}$ recombinant inbred lines (RILs). Phosphorus deficiency substantially increased leaf APA, but APA was much higher and more responsive to phosphorus availability in DOR364 than in G19833. Leaf APA segregated in the RILs, with two discrete groups having either high (mean = 1.71 μmol/mg protein/min) or low (0.36 μmol/mg protein/min) activity. A chi-square test indicated that the observed difference might be controlled by a single gene. Non-denaturing protein electrophoresis revealed that there are four visible isoforms responsible for total APA in common bean, and that the difference in APA between contrasting genotypes could be attributed to the existence of a single major isoform. Qualitative mapping of the APA trait and quantitative trait loci analysis with molecular markers indicated that a major gene contributing to APA is located on linkage group B03 of the unified common bean map. This locus was not associated with loci conferring phosphorus acquisition efficiency or phosphorus use efficiency. RILs contrasting for APA had similar phosphorus pools in old and young leaves under phosphorus stress, arguing against a role for APA in phosphorus remobilization. Our results do not support a major role for leaf APA induction in regulating plant adaptation to phosphorus deficiency.</description><subject>Acid Phosphatase - genetics</subject><subject>Acid Phosphatase - metabolism</subject><subject>Agronomy. Soil science and plant productions</subject><subject>Beans</subject><subject>Biological and medical sciences</subject><subject>Chromosome Mapping</subject><subject>Crosses, Genetic</subject><subject>Economic plant physiology</subject><subject>Environmental Stress and Adaptation</subject><subject>Fabaceae - enzymology</subject><subject>Fabaceae - genetics</subject><subject>Fabaceae - physiology</subject><subject>Fundamental and applied biological sciences. 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Metabolism</subject><subject>Phosphatases</subject><subject>Phosphates</subject><subject>Phosphorus</subject><subject>Phosphorus - metabolism</subject><subject>Phosphorus acids</subject><subject>Phosphorus cycle</subject><subject>Plant Leaves - enzymology</subject><subject>Plants</subject><subject>Plants, Medicinal</subject><subject>Protein isoforms</subject><subject>Quantitative Trait, Heritable</subject><subject>Recombination, Genetic</subject><subject>Restriction Mapping</subject><issn>0032-0889</issn><issn>1532-2548</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><sourceid>8G5</sourceid><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GNUQQ</sourceid><sourceid>GUQSH</sourceid><sourceid>M2O</sourceid><recordid>eNpdkcuP0zAQxi0EYruFIzeELJC4pfiVxJa4lC6PlcrjAGdrktjUVWIHO1m0_z1eGpXHySPN7xt_Mx9CTyjZUErEq3HcUFZuxIYqQu-hFS05K1gp5H20IiTXREp1gS5TOhJCKKfiIbqglCnFK7VC6dp3czu54HGwGPBHOIaI9wYs3rauw18OIY0HmCAZfBVMwp_ChHfBWxPxtoNxgt_aKeB9-LnQIc4Jb2_A9dC43k232PmsGYYMvjHgH6EHFvpkHi_vGn179_br7kOx__z-erfdF61QYiqobUV2bCirGEBtGtupzigALmlZ0byKVJZYYupSdW0tuaxpQ2TTEU44tZyv0evT3HFuBtO1xk8Rej1GN0C81QGc_rfj3UF_DzdaSinKLH-5yGP4MZs06cGl1vQ9eBPmpOuaCCnzv2v0_D_wGObo82qaUVlVqhYsQ8UJamNIKRp79kGJvktSj6POSWqh75LM_LO_zf-hl-gy8GIBILXQ2wi-denMqYrlA2Xq6Yk6pinEc1ewWklG-C89cK_W</recordid><startdate>20010401</startdate><enddate>20010401</enddate><creator>Xiaolong Yan</creator><creator>Liao, Hong</creator><creator>Trull, Melanie C.</creator><creator>Steve E. 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Beebe ; Lynch, Jonathan P.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c494t-1fc4001e1262aa7ebfd9de9aa38156113189f0f0e759dc783871b08bd03031f33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Acid Phosphatase - genetics</topic><topic>Acid Phosphatase - metabolism</topic><topic>Agronomy. Soil science and plant productions</topic><topic>Beans</topic><topic>Biological and medical sciences</topic><topic>Chromosome Mapping</topic><topic>Crosses, Genetic</topic><topic>Economic plant physiology</topic><topic>Environmental Stress and Adaptation</topic><topic>Fabaceae - enzymology</topic><topic>Fabaceae - genetics</topic><topic>Fabaceae - physiology</topic><topic>Fundamental and applied biological sciences. 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Beebe</au><au>Lynch, Jonathan P.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Induction of a Major Leaf Acid Phosphatase Does Not Confer Adaptation to Low Phosphorus Availability in Common Bean</atitle><jtitle>Plant physiology (Bethesda)</jtitle><addtitle>Plant Physiol</addtitle><date>2001-04-01</date><risdate>2001</risdate><volume>125</volume><issue>4</issue><spage>1901</spage><epage>1911</epage><pages>1901-1911</pages><issn>0032-0889</issn><eissn>1532-2548</eissn><coden>PPHYA5</coden><abstract>Acid phosphatase is believed to be important for phosphorus scavenging and remobilization in plants, but its role in plant adaptation to low phosphorus availability has not been critically evaluated. To address this issue, we compared acid phosphatase activity (APA) in leaves of common bean (Phaseolus vulgaris) in a phosphorus-inefficient genotype (DOR364), a phosphorus-efficient genotype (G19833), and their $\text{F}_{5.10}$ recombinant inbred lines (RILs). Phosphorus deficiency substantially increased leaf APA, but APA was much higher and more responsive to phosphorus availability in DOR364 than in G19833. Leaf APA segregated in the RILs, with two discrete groups having either high (mean = 1.71 μmol/mg protein/min) or low (0.36 μmol/mg protein/min) activity. A chi-square test indicated that the observed difference might be controlled by a single gene. Non-denaturing protein electrophoresis revealed that there are four visible isoforms responsible for total APA in common bean, and that the difference in APA between contrasting genotypes could be attributed to the existence of a single major isoform. Qualitative mapping of the APA trait and quantitative trait loci analysis with molecular markers indicated that a major gene contributing to APA is located on linkage group B03 of the unified common bean map. This locus was not associated with loci conferring phosphorus acquisition efficiency or phosphorus use efficiency. RILs contrasting for APA had similar phosphorus pools in old and young leaves under phosphorus stress, arguing against a role for APA in phosphorus remobilization. Our results do not support a major role for leaf APA induction in regulating plant adaptation to phosphorus deficiency.</abstract><cop>Rockville, MD</cop><pub>American Society of Plant Physiologists</pub><pmid>11299369</pmid><doi>10.1104/pp.125.4.1901</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acid Phosphatase - genetics Acid Phosphatase - metabolism Agronomy. Soil science and plant productions Beans Biological and medical sciences Chromosome Mapping Crosses, Genetic Economic plant physiology Environmental Stress and Adaptation Fabaceae - enzymology Fabaceae - genetics Fabaceae - physiology Fundamental and applied biological sciences. Psychology Gene mapping Genetic Linkage Genetic Markers Genotype Genotypes Isoenzymes - genetics Isoenzymes - metabolism Leaves Mineral nutrition Nutrition. Photosynthesis. Respiration. Metabolism Phosphatases Phosphates Phosphorus Phosphorus - metabolism Phosphorus acids Phosphorus cycle Plant Leaves - enzymology Plants Plants, Medicinal Protein isoforms Quantitative Trait, Heritable Recombination, Genetic Restriction Mapping
title	Induction of a Major Leaf Acid Phosphatase Does Not Confer Adaptation to Low Phosphorus Availability in Common Bean
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