Shrimp ATP synthase genes complement yeast null mutants for ATP hydrolysis but not synthesis activity
The aim of this study was to examine the feasibility of employing a yeast functional complementation assay for shrimp genes by using the shrimp mitochondrial F 1 F 0 -ATP synthase enzyme complex as a model. Yeast mutants defective in this complex are typically respiratorydeficient and cannot grow on...
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| Main Authors: | , , , , |
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| Other Authors: | |
| Format: | Article |
| Published: |
2018
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| Subjects: | |
| Online Access: | https://repository.li.mahidol.ac.th/handle/123456789/13602 |
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| Institution: | Mahidol University |
| Summary: | The aim of this study was to examine the feasibility of employing a yeast functional complementation assay for shrimp genes by using the shrimp mitochondrial F 1 F 0 -ATP synthase enzyme complex as a model. Yeast mutants defective in this complex are typically respiratorydeficient and cannot grow on non-fermentable carbon sources such as glycerol, allowing easy verification of functional complementation by yeast growth on media with them as the only carbon source. We cloned the previous published sequence of ATP2 (coding for ATP synthase β subunit) from the Pacific white shrimp Penaeus vannamei (Pv) and also successfully amplified a novel PvATP3 (coding for the ATP synthase γ subunit). Analysis of the putative amino acid sequence of PvATP3 revealed a significant homology with the ATP synthase γ subunit of crustaceans and insects. Complementation assays were performed using full-length ATP2 and ATP3 as well as a chimeric form of ATP2 containing a leader peptide sequence from yeast and a mature sequence from shrimp. However, the shrimp genes were unable to complement the growth of respective yeast mutants on glycerol medium, even though transcriptional expression of the shrimp genes from plasmid-borne constructs in the transformed yeast cells was confirmed by RTPCR. Interestingly, both PvATP2 and PvATP3 suppressed the lethality of the yeast F 1 mutants after the elimination of mitochondrial DNA, which suggests the assembly of a functional F 1 complex necessary for the maintenance of membrane potential in the ρ 0 state. These data suggest an incompatibility of the shrimp/yeast chimeric F 1 -ATPase with the stalk and probably also the F 0 sectors of the ATP synthase, which is essential for coupled energy transduction and ATP synthesis. © Springer Science+Business Media B.V. 2012. |
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