A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice

Low temperature is a critical environmental factor restricting the physiology of organisms across kingdoms. In prokaryotes, cold shock induces the expression of various genes and proteins involved in cellular processes. Here, a cold-shock protein (ArCspA) from the South Pole-dwelling soil bacterium...

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Published in:Genes
Main Authors: So Young Kim, Joung Sug Kim, Woosuk Cho, Kyong Mi Jun, Xiaoxuan Du, Kyung Do Kim, Yeon-Ki Kim, Gang-Seob Lee
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2021
Subjects:
cold-shock protein
Arthrobacter
rice
low temperature
RNA sequencing
South Pole
South pole
Online Access:https://doi.org/10.3390/genes12101589
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spelling ftmdpi:oai:mdpi.com:/2073-4425/12/10/1589/ 2023-08-20T04:09:51+02:00 A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice So Young Kim Joung Sug Kim Woosuk Cho Kyong Mi Jun Xiaoxuan Du Kyung Do Kim Yeon-Ki Kim Gang-Seob Lee agris 2021-10-09 application/pdf https://doi.org/10.3390/genes12101589 EN eng Multidisciplinary Digital Publishing Institute Plant Genetics and Genomics https://dx.doi.org/10.3390/genes12101589 https://creativecommons.org/licenses/by/4.0/ Genes; Volume 12; Issue 10; Pages: 1589 cold-shock protein Arthrobacter rice low temperature RNA sequencing Text 2021 ftmdpi https://doi.org/10.3390/genes12101589 2023-08-01T02:54:52Z Low temperature is a critical environmental factor restricting the physiology of organisms across kingdoms. In prokaryotes, cold shock induces the expression of various genes and proteins involved in cellular processes. Here, a cold-shock protein (ArCspA) from the South Pole-dwelling soil bacterium Arthrobacter sp. A2-5 was introduced into rice, a monocot model plant species. Four-week-old 35S:ArCspA transgenic rice plants grown in a cold chamber at 4 °C survived for 6 days. Cold stress significantly decreased the chlorophyll content in WT plants after 4 days compared with that in 35S:ArCspA transgenic plants. RNA-seq analysis was performed on WT and 35S:ArCspA transgenic rice with/without cold stress. GO terms such as “response to stress (GO:0006950)”, “response to cold (GO:0009409)”, and “response to heat (GO:0009408)” were significantly enriched among the upregulated genes in the 35S:ArCspA transgenic rice under normal conditions, even without cold-stress treatment. The expression of five cold stress-related genes, Rab16B (Os11g0454200), Rab21 (Os11g0454300), LEA22 (Os01g0702500), ABI5 (Os01 g0859300), and MAPK5 (Os03g0285800), was significantly upregulated in the transgenic rice compared with the WT rice. These results indicate that the ArCspA gene might be involved in the induction of cold-responsive genes and provide cold tolerance. Text South pole MDPI Open Access Publishing South Pole Genes 12 10 1589
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic cold-shock protein
Arthrobacter
rice
low temperature
RNA sequencing
spellingShingle cold-shock protein
Arthrobacter
rice
low temperature
RNA sequencing
So Young Kim
Joung Sug Kim
Woosuk Cho
Kyong Mi Jun
Xiaoxuan Du
Kyung Do Kim
Yeon-Ki Kim
Gang-Seob Lee
A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice
topic_facet cold-shock protein
Arthrobacter
rice
low temperature
RNA sequencing
description Low temperature is a critical environmental factor restricting the physiology of organisms across kingdoms. In prokaryotes, cold shock induces the expression of various genes and proteins involved in cellular processes. Here, a cold-shock protein (ArCspA) from the South Pole-dwelling soil bacterium Arthrobacter sp. A2-5 was introduced into rice, a monocot model plant species. Four-week-old 35S:ArCspA transgenic rice plants grown in a cold chamber at 4 °C survived for 6 days. Cold stress significantly decreased the chlorophyll content in WT plants after 4 days compared with that in 35S:ArCspA transgenic plants. RNA-seq analysis was performed on WT and 35S:ArCspA transgenic rice with/without cold stress. GO terms such as “response to stress (GO:0006950)”, “response to cold (GO:0009409)”, and “response to heat (GO:0009408)” were significantly enriched among the upregulated genes in the 35S:ArCspA transgenic rice under normal conditions, even without cold-stress treatment. The expression of five cold stress-related genes, Rab16B (Os11g0454200), Rab21 (Os11g0454300), LEA22 (Os01g0702500), ABI5 (Os01 g0859300), and MAPK5 (Os03g0285800), was significantly upregulated in the transgenic rice compared with the WT rice. These results indicate that the ArCspA gene might be involved in the induction of cold-responsive genes and provide cold tolerance.
format Text
author So Young Kim
Joung Sug Kim
Woosuk Cho
Kyong Mi Jun
Xiaoxuan Du
Kyung Do Kim
Yeon-Ki Kim
Gang-Seob Lee
author_facet So Young Kim
Joung Sug Kim
Woosuk Cho
Kyong Mi Jun
Xiaoxuan Du
Kyung Do Kim
Yeon-Ki Kim
Gang-Seob Lee
author_sort So Young Kim
title A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice
title_short A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice
title_full A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice
title_fullStr A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice
title_full_unstemmed A Cold-Shock Protein from the South Pole-Dwelling Soil Bacterium Arthrobacter sp. Confers Cold Tolerance to Rice
title_sort cold-shock protein from the south pole-dwelling soil bacterium arthrobacter sp. confers cold tolerance to rice
publisher Multidisciplinary Digital Publishing Institute
publishDate 2021
url https://doi.org/10.3390/genes12101589
op_coverage agris
geographic South Pole
geographic_facet South Pole
genre South pole
genre_facet South pole
op_source Genes; Volume 12; Issue 10; Pages: 1589
op_relation Plant Genetics and Genomics
https://dx.doi.org/10.3390/genes12101589
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/genes12101589
container_title Genes
container_volume 12
container_issue 10
container_start_page 1589
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