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CemR atypical response regulator impacts energy conversion in Campylobacteria
by
Noszka, Mateusz
, Muraszko, Jakub
, Hofreuter, Dirk
, Stingl, Kerstin
, Zawilak-Pawlik, Anna
, Strzałka, Agnieszka
, Abele, Miriam
, Ludwig, Christina
in
Arcobacter - genetics
/ Arcobacter - metabolism
/ Arcobacter - pathogenicity
/ Arcobacter butzleri
/ Bacterial Proteins - genetics
/ Bacterial Proteins - metabolism
/ Campylobacter jejuni
/ Campylobacter jejuni - genetics
/ Campylobacter jejuni - metabolism
/ Campylobacter jejuni - pathogenicity
/ carbon metabolism
/ Energy Metabolism - physiology
/ Gene Expression Regulation, Bacterial
/ Humans
/ proteomics
/ Research Article
/ respiration
/ Systems Biology
/ transcription factors
/ Transcription Factors - genetics
/ Transcription Factors - metabolism
2024
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CemR atypical response regulator impacts energy conversion in Campylobacteria
by
Noszka, Mateusz
, Muraszko, Jakub
, Hofreuter, Dirk
, Stingl, Kerstin
, Zawilak-Pawlik, Anna
, Strzałka, Agnieszka
, Abele, Miriam
, Ludwig, Christina
in
Arcobacter - genetics
/ Arcobacter - metabolism
/ Arcobacter - pathogenicity
/ Arcobacter butzleri
/ Bacterial Proteins - genetics
/ Bacterial Proteins - metabolism
/ Campylobacter jejuni
/ Campylobacter jejuni - genetics
/ Campylobacter jejuni - metabolism
/ Campylobacter jejuni - pathogenicity
/ carbon metabolism
/ Energy Metabolism - physiology
/ Gene Expression Regulation, Bacterial
/ Humans
/ proteomics
/ Research Article
/ respiration
/ Systems Biology
/ transcription factors
/ Transcription Factors - genetics
/ Transcription Factors - metabolism
2024
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CemR atypical response regulator impacts energy conversion in Campylobacteria
by
Noszka, Mateusz
, Muraszko, Jakub
, Hofreuter, Dirk
, Stingl, Kerstin
, Zawilak-Pawlik, Anna
, Strzałka, Agnieszka
, Abele, Miriam
, Ludwig, Christina
in
Arcobacter - genetics
/ Arcobacter - metabolism
/ Arcobacter - pathogenicity
/ Arcobacter butzleri
/ Bacterial Proteins - genetics
/ Bacterial Proteins - metabolism
/ Campylobacter jejuni
/ Campylobacter jejuni - genetics
/ Campylobacter jejuni - metabolism
/ Campylobacter jejuni - pathogenicity
/ carbon metabolism
/ Energy Metabolism - physiology
/ Gene Expression Regulation, Bacterial
/ Humans
/ proteomics
/ Research Article
/ respiration
/ Systems Biology
/ transcription factors
/ Transcription Factors - genetics
/ Transcription Factors - metabolism
2024
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CemR atypical response regulator impacts energy conversion in Campylobacteria
Journal Article
CemR atypical response regulator impacts energy conversion in Campylobacteria
2024
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Overview
C. jejuni and A. butzleri are closely related pathogens that infect the human gastrointestinal tract. In order to infect humans successfully, they need to change their metabolism as nutrient and respiratory conditions change. A regulator called CemR has been identified, which helps them adapt their metabolism to changing conditions, particularly oxygen availability in the gastrointestinal tract so that they can produce enough energy for survival and spread. Without CemR, these bacteria, as well as a related species, Helicobacter pylori , produce less energy, grow more slowly, or, in the case of C. jejuni , do not grow at all. Furthermore, CemR is a global regulator that controls the synthesis of many genes in each species, potentially allowing them to adapt to their ecological niches as well as establish infection. Therefore, the identification of CemR opens new possibilities for studying the pathogenicity of C. jejuni and A. butzleri .
Publisher
American Society for Microbiology
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