A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing

Extensive changes in plant transcriptome and metabolome have been observed by numerous research groups after transferring plants from optimal conditions to sulfur (S) deficiency. Despite intensive studies and recent important achievements, like identification of SLIM1/EIL3 as a major transcriptional...

Descripción completa

Detalles Bibliográficos
Autores principales: Lewandowska, Małgorzata, Wawrzyńska, Anna, Moniuszko, Grzegorz, Łukomska, Jolanta, Zientara, Katarzyna, Piecho, Marta, Hodurek, Paweł, Zhukov, Igor, Liszewska, Frantz, Nikiforova, Victoria, Sirko, Agnieszka
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2010
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2845781/
https://www.ncbi.nlm.nih.gov/pubmed/20147370
http://dx.doi.org/10.1093/mp/ssq007
_version_ 1782179436669435904
author Lewandowska, Małgorzata
Wawrzyńska, Anna
Moniuszko, Grzegorz
Łukomska, Jolanta
Zientara, Katarzyna
Piecho, Marta
Hodurek, Paweł
Zhukov, Igor
Liszewska, Frantz
Nikiforova, Victoria
Sirko, Agnieszka
author_facet Lewandowska, Małgorzata
Wawrzyńska, Anna
Moniuszko, Grzegorz
Łukomska, Jolanta
Zientara, Katarzyna
Piecho, Marta
Hodurek, Paweł
Zhukov, Igor
Liszewska, Frantz
Nikiforova, Victoria
Sirko, Agnieszka
author_sort Lewandowska, Małgorzata
collection PubMed
description Extensive changes in plant transcriptome and metabolome have been observed by numerous research groups after transferring plants from optimal conditions to sulfur (S) deficiency. Despite intensive studies and recent important achievements, like identification of SLIM1/EIL3 as a major transcriptional regulator of the response to S-deficiency, many questions concerning other elements of the regulatory network remain unanswered. Investigations of genes with expression regulated by S-deficiency stress encoding proteins of unknown function might help to clarify these problems. This study is focused on the UP9C gene and the UP9-like family in tobacco. Homologs of these genes exist in other plant species, including a family of four genes of unknown function in Arabidopsis thaliana (LSU1-4), of which two were reported as strongly induced by S-deficit and to a lesser extent by salt stress and nitrate limitation. Conservation of the predicted structural features, such as coiled coil region or nuclear localization signal, suggests that these proteins might have important functions possibly mediated by interactions with other proteins. Analysis of transgenic tobacco plants with silenced expression of UP9-like genes strongly argues for their significant role in regulation of plant response to S-deficit. Although our study shows that the UP9-like proteins are important components of such response and they might be also required during other stresses, their molecular functions remain a mystery.
format Text
id pubmed-2845781
institution National Center for Biotechnology Information
language English
publishDate 2010
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-28457812010-04-01 A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing Lewandowska, Małgorzata Wawrzyńska, Anna Moniuszko, Grzegorz Łukomska, Jolanta Zientara, Katarzyna Piecho, Marta Hodurek, Paweł Zhukov, Igor Liszewska, Frantz Nikiforova, Victoria Sirko, Agnieszka Mol Plant Research Articles Extensive changes in plant transcriptome and metabolome have been observed by numerous research groups after transferring plants from optimal conditions to sulfur (S) deficiency. Despite intensive studies and recent important achievements, like identification of SLIM1/EIL3 as a major transcriptional regulator of the response to S-deficiency, many questions concerning other elements of the regulatory network remain unanswered. Investigations of genes with expression regulated by S-deficiency stress encoding proteins of unknown function might help to clarify these problems. This study is focused on the UP9C gene and the UP9-like family in tobacco. Homologs of these genes exist in other plant species, including a family of four genes of unknown function in Arabidopsis thaliana (LSU1-4), of which two were reported as strongly induced by S-deficit and to a lesser extent by salt stress and nitrate limitation. Conservation of the predicted structural features, such as coiled coil region or nuclear localization signal, suggests that these proteins might have important functions possibly mediated by interactions with other proteins. Analysis of transgenic tobacco plants with silenced expression of UP9-like genes strongly argues for their significant role in regulation of plant response to S-deficit. Although our study shows that the UP9-like proteins are important components of such response and they might be also required during other stresses, their molecular functions remain a mystery. Oxford University Press 2010-03 2010-02-10 /pmc/articles/PMC2845781/ /pubmed/20147370 http://dx.doi.org/10.1093/mp/ssq007 Text en © The Author 2010. Published by the Molecular Plant Shanghai Editorial Office in association with Oxford University Press on behalf of CSPP and IPPE, SIBS, CAS. This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.5), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Lewandowska, Małgorzata
Wawrzyńska, Anna
Moniuszko, Grzegorz
Łukomska, Jolanta
Zientara, Katarzyna
Piecho, Marta
Hodurek, Paweł
Zhukov, Igor
Liszewska, Frantz
Nikiforova, Victoria
Sirko, Agnieszka
A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing
title A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing
title_full A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing
title_fullStr A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing
title_full_unstemmed A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing
title_short A Contribution to Identification of Novel Regulators of Plant Response to Sulfur Deficiency: Characteristics of a Tobacco Gene UP9C, Its Protein Product and the Effects of UP9C Silencing
title_sort contribution to identification of novel regulators of plant response to sulfur deficiency: characteristics of a tobacco gene up9c, its protein product and the effects of up9c silencing
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2845781/
https://www.ncbi.nlm.nih.gov/pubmed/20147370
http://dx.doi.org/10.1093/mp/ssq007
work_keys_str_mv AT lewandowskamałgorzata acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT wawrzynskaanna acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT moniuszkogrzegorz acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT łukomskajolanta acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT zientarakatarzyna acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT piechomarta acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT hodurekpaweł acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT zhukovigor acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT liszewskafrantz acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT nikiforovavictoria acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT sirkoagnieszka acontributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT lewandowskamałgorzata contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT wawrzynskaanna contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT moniuszkogrzegorz contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT łukomskajolanta contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT zientarakatarzyna contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT piechomarta contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT hodurekpaweł contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT zhukovigor contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT liszewskafrantz contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT nikiforovavictoria contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing
AT sirkoagnieszka contributiontoidentificationofnovelregulatorsofplantresponsetosulfurdeficiencycharacteristicsofatobaccogeneup9citsproteinproductandtheeffectsofup9csilencing

Ejemplares similares