Repair eXtreme - DNA repair proteins from Antarctic extremophiles
The McMurdo Dry valleys (DV) in Antarctica are one of the harshest environments on Earth, with high levels of UV radiation, freeze-thaw cycles, low moisture, and nutrient content. Bacteria in this extreme environment have adapted to slow growth and low-nutrient conditions. It is proposed that bacter...
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The University of Waikato
2023
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| Online Access: | https://hdl.handle.net/10289/16251 |
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ftunivwaikato:oai:researchcommons.waikato.ac.nz:10289/16251 |
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ftunivwaikato:oai:researchcommons.waikato.ac.nz:10289/16251 2024-02-11T09:57:08+01:00 Repair eXtreme - DNA repair proteins from Antarctic extremophiles Rzoska-Smith, Elizabeth Williamson, Adele McDonald, Ian R. 2023-12-05T00:35:35Z application/pdf https://hdl.handle.net/10289/16251 en eng The University of Waikato https://hdl.handle.net/10289/16251 All items in Research Commons are provided for private study and research purposes and are protected by copyright with all rights reserved unless otherwise indicated. Bacteria -- Antarctica -- McMurdo Dry Valleys Microbial ecology -- Antarctica -- McMurdo Dry Valleys McMurdo Dry Valleys (Antarctica) -- Environmental aspects DNA ligases Extreme environments -- Microbiology -- Antarctica -- McMurdo Dry Valleys Thesis 2023 ftunivwaikato 2024-01-23T18:25:41Z The McMurdo Dry valleys (DV) in Antarctica are one of the harshest environments on Earth, with high levels of UV radiation, freeze-thaw cycles, low moisture, and nutrient content. Bacteria in this extreme environment have adapted to slow growth and low-nutrient conditions. It is proposed that bacteria from Antarctic DV systems may possess unique DNA repair enzymes and pathways that enable their survival in such extreme conditions. Exploring these DNA repair systems may offer valuable insights into microbial survival in extreme environments or even extra-terrestrial settings. To investigate this, DNA repair enzymes were identified from Antarctic DV microbial metagenomes using in silico analysis and in vivo characterisation of recombinantly produced proteins. Four candidate enzymes were chosen for structural and biological characterisation. Three of these enzymes are characterised as LigB type ATP-dependent DNA ligases, with the typical arrangement of a DNA binding domain, adenylation domain and an OB-fold domain. These ligases can utilise both ATP and ADP nucleotide cofactors for the ligation of nick and mismatch DNA substrates, requiring the addition of magnesium or manganese metal ions. One LigB ligase stands out due to its interesting fusion with an N-terminally located nuclease domain, which resembles an extensively studied MBL-β-CASP domain found in all domains of life. The recombinantly expressed nuclease domain can coordinate several types of metal ions and shows nuclease activity against a diverse range of DNA substrates. Nuclease activity favoured single-stranded DNA substrates, in a 5’ to 3’ direction, and was particularly active on substrates with abasic sites or 5’ flaps. The fourth protein was initially annotated as a hypothetical protein, however in silico analysis revealed that it exhibited homology to NucS nucleases identified in archaea and bacteria. This NucS homolog is a monomeric enzyme, made up of four domains, which is different from other proteins in this family. This enzyme shows a ... Thesis Antarc* Antarctic Antarctica McMurdo Dry Valleys The University of Waikato: Research Commons Antarctic McMurdo Dry Valleys |
| institution |
Open Polar |
| collection |
The University of Waikato: Research Commons |
| op_collection_id |
ftunivwaikato |
| language |
English |
| topic |
Bacteria -- Antarctica -- McMurdo Dry Valleys Microbial ecology -- Antarctica -- McMurdo Dry Valleys McMurdo Dry Valleys (Antarctica) -- Environmental aspects DNA ligases Extreme environments -- Microbiology -- Antarctica -- McMurdo Dry Valleys |
| spellingShingle |
Bacteria -- Antarctica -- McMurdo Dry Valleys Microbial ecology -- Antarctica -- McMurdo Dry Valleys McMurdo Dry Valleys (Antarctica) -- Environmental aspects DNA ligases Extreme environments -- Microbiology -- Antarctica -- McMurdo Dry Valleys Rzoska-Smith, Elizabeth Repair eXtreme - DNA repair proteins from Antarctic extremophiles |
| topic_facet |
Bacteria -- Antarctica -- McMurdo Dry Valleys Microbial ecology -- Antarctica -- McMurdo Dry Valleys McMurdo Dry Valleys (Antarctica) -- Environmental aspects DNA ligases Extreme environments -- Microbiology -- Antarctica -- McMurdo Dry Valleys |
| description |
The McMurdo Dry valleys (DV) in Antarctica are one of the harshest environments on Earth, with high levels of UV radiation, freeze-thaw cycles, low moisture, and nutrient content. Bacteria in this extreme environment have adapted to slow growth and low-nutrient conditions. It is proposed that bacteria from Antarctic DV systems may possess unique DNA repair enzymes and pathways that enable their survival in such extreme conditions. Exploring these DNA repair systems may offer valuable insights into microbial survival in extreme environments or even extra-terrestrial settings. To investigate this, DNA repair enzymes were identified from Antarctic DV microbial metagenomes using in silico analysis and in vivo characterisation of recombinantly produced proteins. Four candidate enzymes were chosen for structural and biological characterisation. Three of these enzymes are characterised as LigB type ATP-dependent DNA ligases, with the typical arrangement of a DNA binding domain, adenylation domain and an OB-fold domain. These ligases can utilise both ATP and ADP nucleotide cofactors for the ligation of nick and mismatch DNA substrates, requiring the addition of magnesium or manganese metal ions. One LigB ligase stands out due to its interesting fusion with an N-terminally located nuclease domain, which resembles an extensively studied MBL-β-CASP domain found in all domains of life. The recombinantly expressed nuclease domain can coordinate several types of metal ions and shows nuclease activity against a diverse range of DNA substrates. Nuclease activity favoured single-stranded DNA substrates, in a 5’ to 3’ direction, and was particularly active on substrates with abasic sites or 5’ flaps. The fourth protein was initially annotated as a hypothetical protein, however in silico analysis revealed that it exhibited homology to NucS nucleases identified in archaea and bacteria. This NucS homolog is a monomeric enzyme, made up of four domains, which is different from other proteins in this family. This enzyme shows a ... |
| author2 |
Williamson, Adele McDonald, Ian R. |
| format |
Thesis |
| author |
Rzoska-Smith, Elizabeth |
| author_facet |
Rzoska-Smith, Elizabeth |
| author_sort |
Rzoska-Smith, Elizabeth |
| title |
Repair eXtreme - DNA repair proteins from Antarctic extremophiles |
| title_short |
Repair eXtreme - DNA repair proteins from Antarctic extremophiles |
| title_full |
Repair eXtreme - DNA repair proteins from Antarctic extremophiles |
| title_fullStr |
Repair eXtreme - DNA repair proteins from Antarctic extremophiles |
| title_full_unstemmed |
Repair eXtreme - DNA repair proteins from Antarctic extremophiles |
| title_sort |
repair extreme - dna repair proteins from antarctic extremophiles |
| publisher |
The University of Waikato |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10289/16251 |
| geographic |
Antarctic McMurdo Dry Valleys |
| geographic_facet |
Antarctic McMurdo Dry Valleys |
| genre |
Antarc* Antarctic Antarctica McMurdo Dry Valleys |
| genre_facet |
Antarc* Antarctic Antarctica McMurdo Dry Valleys |
| op_relation |
https://hdl.handle.net/10289/16251 |
| op_rights |
All items in Research Commons are provided for private study and research purposes and are protected by copyright with all rights reserved unless otherwise indicated. |
| _version_ |
1790608858496892928 |