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Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid
Chloroplast structure in mesophyll cells from the high-level abscisic acid (ABA) line of maize (Zea mays L.), ZPBL 1304, and the low-level ABA line, ZPL 389, was studied in response to leaf dehydration and high temperature (45 C). Thirteen-day-old seedlings were exposed to 7-d soil drying followed b...
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| Published in: | International journal of plant sciences 1992-06, Vol.153 (2), p.186-196 |
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| container_title | International journal of plant sciences |
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| creator | Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada) Cass, D.D |
| description | Chloroplast structure in mesophyll cells from the high-level abscisic acid (ABA) line of maize (Zea mays L.), ZPBL 1304, and the low-level ABA line, ZPL 389, was studied in response to leaf dehydration and high temperature (45 C). Thirteen-day-old seedlings were exposed to 7-d soil drying followed by either 6-h or 24-h heat stress. Seven-day soil drying followed by 6-h high-temperature stress did not affect chloroplasts in line ZPBL 1304 but damaged many chloroplasts of line ZPL 389; chloroplast-envelope membranes were broken and not distinct, and many thylakoids were swollen. Seven-day soil drying followed by 24-h heat stress affected chloroplasts in both lines, but changes in chloroplast structure were greater in ZPL 389 than in ZPBL 1304. The main damage to the chloroplasts in ZPBL 1304 included thylakoid swelling, disruption of the chloroplast envelope, and distortion of chloroplast shape. Chloroplasts in ZPL 389 suffered severe damage: their shape was irregular, envelope membranes were not visible, grana were barely recognizable, and many lipid droplets were visible inside the chloroplast. Modifications in chloroplast structure were reversible in ZPBL 1304. Chloroplasts in ZPL 389 were irreversibly damaged after heating for 24 h. Chloroplast structure differences between lines under stress conditions were likely the result of genotypic differences in leaf dehydration, and possibly the result of genotypic differences in thermal stability of chloroplast membranes. The results support the hypothesis that higher levels of endogenous ABA can indicate drought and heat resistance in maize. |
| doi_str_mv | 10.1086/297021 |
| format | article |
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(University of Alberta, Edmonton, Alberta, Canada) ; Cass, D.D</creator><creatorcontrib>Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada) ; Cass, D.D</creatorcontrib><description>Chloroplast structure in mesophyll cells from the high-level abscisic acid (ABA) line of maize (Zea mays L.), ZPBL 1304, and the low-level ABA line, ZPL 389, was studied in response to leaf dehydration and high temperature (45 C). Thirteen-day-old seedlings were exposed to 7-d soil drying followed by either 6-h or 24-h heat stress. Seven-day soil drying followed by 6-h high-temperature stress did not affect chloroplasts in line ZPBL 1304 but damaged many chloroplasts of line ZPL 389; chloroplast-envelope membranes were broken and not distinct, and many thylakoids were swollen. Seven-day soil drying followed by 24-h heat stress affected chloroplasts in both lines, but changes in chloroplast structure were greater in ZPL 389 than in ZPBL 1304. The main damage to the chloroplasts in ZPBL 1304 included thylakoid swelling, disruption of the chloroplast envelope, and distortion of chloroplast shape. Chloroplasts in ZPL 389 suffered severe damage: their shape was irregular, envelope membranes were not visible, grana were barely recognizable, and many lipid droplets were visible inside the chloroplast. Modifications in chloroplast structure were reversible in ZPBL 1304. Chloroplasts in ZPL 389 were irreversibly damaged after heating for 24 h. Chloroplast structure differences between lines under stress conditions were likely the result of genotypic differences in leaf dehydration, and possibly the result of genotypic differences in thermal stability of chloroplast membranes. The results support the hypothesis that higher levels of endogenous ABA can indicate drought and heat resistance in maize.</description><identifier>ISSN: 1058-5893</identifier><identifier>EISSN: 1537-5315</identifier><identifier>DOI: 10.1086/297021</identifier><language>eng</language><publisher>Chicago: The University of Chicago Press</publisher><subject>ABA ; ACIDE ABSCISSIQUE ; ACIDO ABSCISICO ; AGOTAMIENTO POR EL CALOR ; Arid soils ; Botany ; CALOR ; CELL STRUCTURE ; CELL ULTRASTRUCTURE ; CHALEUR ; CHLOROPLAST ENVELOPE MEMBRANES ; CHLOROPLASTE ; CHLOROPLASTS ; CLOROPLASTO ; Corn ; COUP DE CHALEUR ; Dehydration ; DROUGHT ; DROUGHT RESISTANCE ; DROUGHT STRESS ; Drying ; ESTRES DE SEQUIA ; ESTRUCTURA CELULAR ; Flood damage ; GENOTIPOS ; GENOTYPE ; GENOTYPES ; HEAT ; HEAT EXHAUSTION ; HEAT STABILITY ; HEAT STRESS ; HEAT TOLERANCE ; High temperature ; LINE DIFFERENCES ; MESOFILO ; MESOPHYLL ; MESOPHYLLE ; Physiology ; Plants ; PLASMA MEMBRANES ; PLASTE ; PLASTIDIOS ; PLASTIDS ; RESISTANCE A LA SECHERESSE ; RESISTANCE A LA TEMPERATURE ; RESISTENCIA A LA SEQUIA ; RESISTENCIA A LA TEMPERATURA ; SECHERESSE ; SEQUIA ; STRESS DU A LA SECHERESSE ; STRUCTURE CELLULAIRE ; Temperature ; TEMPERATURE RESISTANCE ; THYLAKOID MEMBRANES ; THYLAKOIDS ; WATER STRESS ; ZEA MAYS</subject><ispartof>International journal of plant sciences, 1992-06, Vol.153 (2), p.186-196</ispartof><rights>Copyright 1992 The University of Chicago</rights><rights>Copyright University of Chicago, acting through its Press Jun 1992</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c1354-1558dff4a4ce4003344b997f8e3aaedd7ebb78fd6f3c05d98bfb064c23b5ef453</citedby></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://www.jstor.org/stable/pdf/2995641$$EPDF$$P50$$Gjstor$$H</linktopdf><linktohtml>$$Uhttps://www.jstor.org/stable/2995641$$EHTML$$P50$$Gjstor$$H</linktohtml><link.rule.ids>314,780,784,27924,27925,58238,58471</link.rule.ids></links><search><creatorcontrib>Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada)</creatorcontrib><creatorcontrib>Cass, D.D</creatorcontrib><title>Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid</title><title>International journal of plant sciences</title><description>Chloroplast structure in mesophyll cells from the high-level abscisic acid (ABA) line of maize (Zea mays L.), ZPBL 1304, and the low-level ABA line, ZPL 389, was studied in response to leaf dehydration and high temperature (45 C). Thirteen-day-old seedlings were exposed to 7-d soil drying followed by either 6-h or 24-h heat stress. Seven-day soil drying followed by 6-h high-temperature stress did not affect chloroplasts in line ZPBL 1304 but damaged many chloroplasts of line ZPL 389; chloroplast-envelope membranes were broken and not distinct, and many thylakoids were swollen. Seven-day soil drying followed by 24-h heat stress affected chloroplasts in both lines, but changes in chloroplast structure were greater in ZPL 389 than in ZPBL 1304. The main damage to the chloroplasts in ZPBL 1304 included thylakoid swelling, disruption of the chloroplast envelope, and distortion of chloroplast shape. Chloroplasts in ZPL 389 suffered severe damage: their shape was irregular, envelope membranes were not visible, grana were barely recognizable, and many lipid droplets were visible inside the chloroplast. Modifications in chloroplast structure were reversible in ZPBL 1304. Chloroplasts in ZPL 389 were irreversibly damaged after heating for 24 h. Chloroplast structure differences between lines under stress conditions were likely the result of genotypic differences in leaf dehydration, and possibly the result of genotypic differences in thermal stability of chloroplast membranes. The results support the hypothesis that higher levels of endogenous ABA can indicate drought and heat resistance in maize.</description><subject>ABA</subject><subject>ACIDE ABSCISSIQUE</subject><subject>ACIDO ABSCISICO</subject><subject>AGOTAMIENTO POR EL CALOR</subject><subject>Arid soils</subject><subject>Botany</subject><subject>CALOR</subject><subject>CELL STRUCTURE</subject><subject>CELL ULTRASTRUCTURE</subject><subject>CHALEUR</subject><subject>CHLOROPLAST ENVELOPE MEMBRANES</subject><subject>CHLOROPLASTE</subject><subject>CHLOROPLASTS</subject><subject>CLOROPLASTO</subject><subject>Corn</subject><subject>COUP DE CHALEUR</subject><subject>Dehydration</subject><subject>DROUGHT</subject><subject>DROUGHT RESISTANCE</subject><subject>DROUGHT STRESS</subject><subject>Drying</subject><subject>ESTRES DE SEQUIA</subject><subject>ESTRUCTURA CELULAR</subject><subject>Flood damage</subject><subject>GENOTIPOS</subject><subject>GENOTYPE</subject><subject>GENOTYPES</subject><subject>HEAT</subject><subject>HEAT EXHAUSTION</subject><subject>HEAT STABILITY</subject><subject>HEAT STRESS</subject><subject>HEAT TOLERANCE</subject><subject>High temperature</subject><subject>LINE DIFFERENCES</subject><subject>MESOFILO</subject><subject>MESOPHYLL</subject><subject>MESOPHYLLE</subject><subject>Physiology</subject><subject>Plants</subject><subject>PLASMA MEMBRANES</subject><subject>PLASTE</subject><subject>PLASTIDIOS</subject><subject>PLASTIDS</subject><subject>RESISTANCE A LA SECHERESSE</subject><subject>RESISTANCE A LA TEMPERATURE</subject><subject>RESISTENCIA A LA SEQUIA</subject><subject>RESISTENCIA A LA TEMPERATURA</subject><subject>SECHERESSE</subject><subject>SEQUIA</subject><subject>STRESS DU A LA SECHERESSE</subject><subject>STRUCTURE CELLULAIRE</subject><subject>Temperature</subject><subject>TEMPERATURE RESISTANCE</subject><subject>THYLAKOID MEMBRANES</subject><subject>THYLAKOIDS</subject><subject>WATER STRESS</subject><subject>ZEA MAYS</subject><issn>1058-5893</issn><issn>1537-5315</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1992</creationdate><recordtype>article</recordtype><recordid>eNo90M1OwzAMAOAKgcQY8ACIQ8SBWyFpkjU5ook_CYkD7FylibNm6pqRpExw573pVsTFtuTPtuQsOyf4hmAxuy1kiQtykE0Ip2XOKeGHQ425yLmQ9Dg7iXGFMZa8kJPsZ960PvhNq2JCMYVepz4AUjZBQFu1i6ozqHHLJk-w3kBQezBQiBG5DqWtR63rICJv0Vq5b0CpUQkZZ-0wPQjojF9C5_uIWviEdi9VHbWLTiOlnTnNjqxqI5z95Wm2eLh_nz_lL6-Pz_O7l1wTyllOOBfGWqaYBoYxpYzVUpZWAFUKjCmhrkthzcxSjbmRorY1njFd0JqDZZxOs6tx7yb4jx5iqla-D91wsipKJkhJBRvQ9Yh08DEGsNUmuLUKXxXB1e7D1fjhAV6OcBWTD_-qkJLP2K59Mbat8pVaBherxZukWBQU019SdYFy</recordid><startdate>199206</startdate><enddate>199206</enddate><creator>Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada)</creator><creator>Cass, D.D</creator><general>The University of Chicago Press</general><general>University of Chicago, acting through its Press</general><scope>FBQ</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7SN</scope><scope>7ST</scope><scope>8FD</scope><scope>C1K</scope><scope>FR3</scope><scope>P64</scope><scope>RC3</scope><scope>SOI</scope></search><sort><creationdate>199206</creationdate><title>Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid</title><author>Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada) ; Cass, D.D</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c1354-1558dff4a4ce4003344b997f8e3aaedd7ebb78fd6f3c05d98bfb064c23b5ef453</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1992</creationdate><topic>ABA</topic><topic>ACIDE ABSCISSIQUE</topic><topic>ACIDO ABSCISICO</topic><topic>AGOTAMIENTO POR EL CALOR</topic><topic>Arid soils</topic><topic>Botany</topic><topic>CALOR</topic><topic>CELL STRUCTURE</topic><topic>CELL ULTRASTRUCTURE</topic><topic>CHALEUR</topic><topic>CHLOROPLAST ENVELOPE MEMBRANES</topic><topic>CHLOROPLASTE</topic><topic>CHLOROPLASTS</topic><topic>CLOROPLASTO</topic><topic>Corn</topic><topic>COUP DE CHALEUR</topic><topic>Dehydration</topic><topic>DROUGHT</topic><topic>DROUGHT RESISTANCE</topic><topic>DROUGHT STRESS</topic><topic>Drying</topic><topic>ESTRES DE SEQUIA</topic><topic>ESTRUCTURA CELULAR</topic><topic>Flood damage</topic><topic>GENOTIPOS</topic><topic>GENOTYPE</topic><topic>GENOTYPES</topic><topic>HEAT</topic><topic>HEAT EXHAUSTION</topic><topic>HEAT STABILITY</topic><topic>HEAT STRESS</topic><topic>HEAT TOLERANCE</topic><topic>High temperature</topic><topic>LINE DIFFERENCES</topic><topic>MESOFILO</topic><topic>MESOPHYLL</topic><topic>MESOPHYLLE</topic><topic>Physiology</topic><topic>Plants</topic><topic>PLASMA MEMBRANES</topic><topic>PLASTE</topic><topic>PLASTIDIOS</topic><topic>PLASTIDS</topic><topic>RESISTANCE A LA SECHERESSE</topic><topic>RESISTANCE A LA TEMPERATURE</topic><topic>RESISTENCIA A LA SEQUIA</topic><topic>RESISTENCIA A LA TEMPERATURA</topic><topic>SECHERESSE</topic><topic>SEQUIA</topic><topic>STRESS DU A LA SECHERESSE</topic><topic>STRUCTURE CELLULAIRE</topic><topic>Temperature</topic><topic>TEMPERATURE RESISTANCE</topic><topic>THYLAKOID MEMBRANES</topic><topic>THYLAKOIDS</topic><topic>WATER STRESS</topic><topic>ZEA MAYS</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada)</creatorcontrib><creatorcontrib>Cass, D.D</creatorcontrib><collection>AGRIS</collection><collection>CrossRef</collection><collection>Ecology Abstracts</collection><collection>Environment Abstracts</collection><collection>Technology Research Database</collection><collection>Environmental Sciences and Pollution Management</collection><collection>Engineering Research Database</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>Genetics Abstracts</collection><collection>Environment Abstracts</collection><jtitle>International journal of plant sciences</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ristic, Z. (University of Alberta, Edmonton, Alberta, Canada)</au><au>Cass, D.D</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid</atitle><jtitle>International journal of plant sciences</jtitle><date>1992-06</date><risdate>1992</risdate><volume>153</volume><issue>2</issue><spage>186</spage><epage>196</epage><pages>186-196</pages><issn>1058-5893</issn><eissn>1537-5315</eissn><abstract>Chloroplast structure in mesophyll cells from the high-level abscisic acid (ABA) line of maize (Zea mays L.), ZPBL 1304, and the low-level ABA line, ZPL 389, was studied in response to leaf dehydration and high temperature (45 C). Thirteen-day-old seedlings were exposed to 7-d soil drying followed by either 6-h or 24-h heat stress. Seven-day soil drying followed by 6-h high-temperature stress did not affect chloroplasts in line ZPBL 1304 but damaged many chloroplasts of line ZPL 389; chloroplast-envelope membranes were broken and not distinct, and many thylakoids were swollen. Seven-day soil drying followed by 24-h heat stress affected chloroplasts in both lines, but changes in chloroplast structure were greater in ZPL 389 than in ZPBL 1304. The main damage to the chloroplasts in ZPBL 1304 included thylakoid swelling, disruption of the chloroplast envelope, and distortion of chloroplast shape. Chloroplasts in ZPL 389 suffered severe damage: their shape was irregular, envelope membranes were not visible, grana were barely recognizable, and many lipid droplets were visible inside the chloroplast. Modifications in chloroplast structure were reversible in ZPBL 1304. Chloroplasts in ZPL 389 were irreversibly damaged after heating for 24 h. Chloroplast structure differences between lines under stress conditions were likely the result of genotypic differences in leaf dehydration, and possibly the result of genotypic differences in thermal stability of chloroplast membranes. The results support the hypothesis that higher levels of endogenous ABA can indicate drought and heat resistance in maize.</abstract><cop>Chicago</cop><pub>The University of Chicago Press</pub><doi>10.1086/297021</doi><tpages>11</tpages></addata></record> |
| fulltext | fulltext |
| identifier | ISSN: 1058-5893 |
| ispartof | International journal of plant sciences, 1992-06, Vol.153 (2), p.186-196 |
| issn | 1058-5893 1537-5315 |
| language | eng |
| recordid | cdi_proquest_journals_274817384 |
| source | JSTOR Archival Journals and Primary Sources Collection |
| subjects | ABA ACIDE ABSCISSIQUE ACIDO ABSCISICO AGOTAMIENTO POR EL CALOR Arid soils Botany CALOR CELL STRUCTURE CELL ULTRASTRUCTURE CHALEUR CHLOROPLAST ENVELOPE MEMBRANES CHLOROPLASTE CHLOROPLASTS CLOROPLASTO Corn COUP DE CHALEUR Dehydration DROUGHT DROUGHT RESISTANCE DROUGHT STRESS Drying ESTRES DE SEQUIA ESTRUCTURA CELULAR Flood damage GENOTIPOS GENOTYPE GENOTYPES HEAT HEAT EXHAUSTION HEAT STABILITY HEAT STRESS HEAT TOLERANCE High temperature LINE DIFFERENCES MESOFILO MESOPHYLL MESOPHYLLE Physiology Plants PLASMA MEMBRANES PLASTE PLASTIDIOS PLASTIDS RESISTANCE A LA SECHERESSE RESISTANCE A LA TEMPERATURE RESISTENCIA A LA SEQUIA RESISTENCIA A LA TEMPERATURA SECHERESSE SEQUIA STRESS DU A LA SECHERESSE STRUCTURE CELLULAIRE Temperature TEMPERATURE RESISTANCE THYLAKOID MEMBRANES THYLAKOIDS WATER STRESS ZEA MAYS |
| title | Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid |
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