Quantitative proteomic analysis of the microbial degradation of 3-aminobenzoic acid by Comamonas sp. QT12
A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC–MS/MS was used to study the prot...
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| Published in | Scientific reports Vol. 12; no. 1; pp. 17609 - 9 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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20.10.2022
Nature Publishing Group Nature Portfolio |
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| Abstract | A
mab
cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in
Comamonas
sp. QT12. However, the cellular response of
Comamonas
sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC–MS/MS was used to study the protein expression difference of strain QT12 under the condition of using 3AB (3AB) and citric acid/ammonium chloride as substrates (3ABCon). A total of 2068 proteins were identified, of which 239 were significantly up-regulated in 3AB group, 124 were significantly down-regulated in 3AB group, 624 were expressed only in 3AB group, and 216 were expressed only in 3ABCon group in 3AB group. KEGG pathway analysis found that 83 pathways were up-regulated and 49 pathways were down-regulated, In GO analysis, 315 paths were up-regulated and 156 paths were down-regulated. There were 6 genes in the
mab
cluster that were only detected in the 3AB group.The
mab
cluster was found to be related to degradation of 3AB. By knockout, it was found that the growth rate of the mutant △
orf
7 and △
orf
9 were slowed down. HPLC results showed that the mutant △
orf
7 and △
orf
9 could still degrade 3AB, it was found that
orf7
,
orf9
were not key genes about 3AB degradation and they could be replaced by other genes in strain QT12. These findings improve our understanding of the molecular mechanisms underlying the cellular response of 3AB degradation in
Comamonas
bacterium. |
|---|---|
| AbstractList | A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC-MS/MS was used to study the protein expression difference of strain QT12 under the condition of using 3AB (3AB) and citric acid/ammonium chloride as substrates (3ABCon). A total of 2068 proteins were identified, of which 239 were significantly up-regulated in 3AB group, 124 were significantly down-regulated in 3AB group, 624 were expressed only in 3AB group, and 216 were expressed only in 3ABCon group in 3AB group. KEGG pathway analysis found that 83 pathways were up-regulated and 49 pathways were down-regulated, In GO analysis, 315 paths were up-regulated and 156 paths were down-regulated. There were 6 genes in the mab cluster that were only detected in the 3AB group.The mab cluster was found to be related to degradation of 3AB. By knockout, it was found that the growth rate of the mutant △orf7 and △orf9 were slowed down. HPLC results showed that the mutant △orf7 and △orf9 could still degrade 3AB, it was found that orf7, orf9 were not key genes about 3AB degradation and they could be replaced by other genes in strain QT12. These findings improve our understanding of the molecular mechanisms underlying the cellular response of 3AB degradation in Comamonas bacterium.A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC-MS/MS was used to study the protein expression difference of strain QT12 under the condition of using 3AB (3AB) and citric acid/ammonium chloride as substrates (3ABCon). A total of 2068 proteins were identified, of which 239 were significantly up-regulated in 3AB group, 124 were significantly down-regulated in 3AB group, 624 were expressed only in 3AB group, and 216 were expressed only in 3ABCon group in 3AB group. KEGG pathway analysis found that 83 pathways were up-regulated and 49 pathways were down-regulated, In GO analysis, 315 paths were up-regulated and 156 paths were down-regulated. There were 6 genes in the mab cluster that were only detected in the 3AB group.The mab cluster was found to be related to degradation of 3AB. By knockout, it was found that the growth rate of the mutant △orf7 and △orf9 were slowed down. HPLC results showed that the mutant △orf7 and △orf9 could still degrade 3AB, it was found that orf7, orf9 were not key genes about 3AB degradation and they could be replaced by other genes in strain QT12. These findings improve our understanding of the molecular mechanisms underlying the cellular response of 3AB degradation in Comamonas bacterium. A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC–MS/MS was used to study the protein expression difference of strain QT12 under the condition of using 3AB (3AB) and citric acid/ammonium chloride as substrates (3ABCon). A total of 2068 proteins were identified, of which 239 were significantly up-regulated in 3AB group, 124 were significantly down-regulated in 3AB group, 624 were expressed only in 3AB group, and 216 were expressed only in 3ABCon group in 3AB group. KEGG pathway analysis found that 83 pathways were up-regulated and 49 pathways were down-regulated, In GO analysis, 315 paths were up-regulated and 156 paths were down-regulated. There were 6 genes in the mab cluster that were only detected in the 3AB group.The mab cluster was found to be related to degradation of 3AB. By knockout, it was found that the growth rate of the mutant △ orf 7 and △ orf 9 were slowed down. HPLC results showed that the mutant △ orf 7 and △ orf 9 could still degrade 3AB, it was found that orf7 , orf9 were not key genes about 3AB degradation and they could be replaced by other genes in strain QT12. These findings improve our understanding of the molecular mechanisms underlying the cellular response of 3AB degradation in Comamonas bacterium. A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC–MS/MS was used to study the protein expression difference of strain QT12 under the condition of using 3AB (3AB) and citric acid/ammonium chloride as substrates (3ABCon). A total of 2068 proteins were identified, of which 239 were significantly up-regulated in 3AB group, 124 were significantly down-regulated in 3AB group, 624 were expressed only in 3AB group, and 216 were expressed only in 3ABCon group in 3AB group. KEGG pathway analysis found that 83 pathways were up-regulated and 49 pathways were down-regulated, In GO analysis, 315 paths were up-regulated and 156 paths were down-regulated. There were 6 genes in the mab cluster that were only detected in the 3AB group.The mab cluster was found to be related to degradation of 3AB. By knockout, it was found that the growth rate of the mutant △orf7 and △orf9 were slowed down. HPLC results showed that the mutant △orf7 and △orf9 could still degrade 3AB, it was found that orf7, orf9 were not key genes about 3AB degradation and they could be replaced by other genes in strain QT12. These findings improve our understanding of the molecular mechanisms underlying the cellular response of 3AB degradation in Comamonas bacterium. Abstract A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12 to 3-aminobenzoic acid remains unclear. In this study, label-free quantitative proteome analysis based on LC–MS/MS was used to study the protein expression difference of strain QT12 under the condition of using 3AB (3AB) and citric acid/ammonium chloride as substrates (3ABCon). A total of 2068 proteins were identified, of which 239 were significantly up-regulated in 3AB group, 124 were significantly down-regulated in 3AB group, 624 were expressed only in 3AB group, and 216 were expressed only in 3ABCon group in 3AB group. KEGG pathway analysis found that 83 pathways were up-regulated and 49 pathways were down-regulated, In GO analysis, 315 paths were up-regulated and 156 paths were down-regulated. There were 6 genes in the mab cluster that were only detected in the 3AB group.The mab cluster was found to be related to degradation of 3AB. By knockout, it was found that the growth rate of the mutant △orf7 and △orf9 were slowed down. HPLC results showed that the mutant △orf7 and △orf9 could still degrade 3AB, it was found that orf7, orf9 were not key genes about 3AB degradation and they could be replaced by other genes in strain QT12. These findings improve our understanding of the molecular mechanisms underlying the cellular response of 3AB degradation in Comamonas bacterium. |
| ArticleNumber | 17609 |
| Author | Chen, Xi Zhao, Shuxue Du, Haiyan Zhao, Junxing Li, Min Yu, Hao Pan, Chao |
| Author_xml | – sequence: 1 givenname: Shuxue surname: Zhao fullname: Zhao, Shuxue organization: College of Marine Life Sciences, Ocean University of China, Shandong Provincial Key Laboratory of Applied Mycology, School of Life Sciences, Qingdao Agricultural University – sequence: 2 givenname: Chao surname: Pan fullname: Pan, Chao organization: College of Marine Life Sciences, Ocean University of China – sequence: 3 givenname: Junxing surname: Zhao fullname: Zhao, Junxing organization: Qingdao Water Administration Bureau – sequence: 4 givenname: Haiyan surname: Du fullname: Du, Haiyan organization: Shandong Provincial Key Laboratory of Applied Mycology, School of Life Sciences, Qingdao Agricultural University – sequence: 5 givenname: Min surname: Li fullname: Li, Min organization: Shandong Provincial Key Laboratory of Applied Mycology, School of Life Sciences, Qingdao Agricultural University – sequence: 6 givenname: Hao surname: Yu fullname: Yu, Hao email: yuhaosunshine@163.com organization: Shandong Provincial Key Laboratory of Applied Mycology, School of Life Sciences, Qingdao Agricultural University – sequence: 7 givenname: Xi surname: Chen fullname: Chen, Xi email: chenxi@ouc.edu.cn organization: College of Marine Life Sciences, Ocean University of China |
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| Snippet | A
mab
cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in
Comamonas
sp. QT12. However, the cellular response of
Comamonas
sp. QT12... A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas sp. QT12... Abstract A mab cluster associated with 3-aminobenzoic acid (3AB) degradation was identified in Comamonas sp. QT12. However, the cellular response of Comamonas... |
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| SubjectTerms | 631/1647 631/208 631/337 631/45 631/57 631/80 Acids Ammonium Ammonium chloride Ammonium Chloride - metabolism Biodegradation Chromatography, Liquid Citric acid Citric Acid - metabolism Comamonas Comamonas - genetics Comamonas - metabolism Growth rate Humanities and Social Sciences Microbial degradation Molecular modelling multidisciplinary Mutants Proteome - metabolism Proteomes Proteomics Science Science (multidisciplinary) Tandem Mass Spectrometry |
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| Title | Quantitative proteomic analysis of the microbial degradation of 3-aminobenzoic acid by Comamonas sp. QT12 |
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