Your search keyword '"Dacyuk, Yuriy"' showing total 6 results

1. Properties of Multidrug-Resistant Mutants Derived from Heterologous Expression Chassis Strain Streptomyces albidoflavus J1074

Author

Dolya, Borys, primary, Hryhorieva, Olena, additional, Sorochynska, Khrystyna, additional, Lopatniuk, Maria, additional, Ostash, Iryna, additional, Tseduliak, Vasylyna-Marta, additional, Sterndorff, Eva Baggesgaard, additional, Jørgensen, Tue Sparholt, additional, Gren, Tetiana, additional, Dacyuk, Yuriy, additional, Weber, Tilmann, additional, Luzhetskyy, Andriy, additional, Fedorenko, Victor, additional, and Ostash, Bohdan, additional

Published

2023

2. Gene miaA for post-transcriptional modification of tRNAXXA is important for morphological and metabolic differentiation in Streptomyces

Author

Koshla, Oksana, Yushchuk, Oleksandr, Stash, Iryna, Dacyuk, Yuriy, Myronovskyi, Maksym, Jager, Gunilla, Sussmuth, Roderich D., Luzhetskyy, Andriy, Bystrom, Anders, Kirsebom, Leif, Ostash, Bohdan, Koshla, Oksana, Yushchuk, Oleksandr, Stash, Iryna, Dacyuk, Yuriy, Myronovskyi, Maksym, Jager, Gunilla, Sussmuth, Roderich D., Luzhetskyy, Andriy, Bystrom, Anders, Kirsebom, Leif, and Ostash, Bohdan

Abstract

Members of actinobacterial genus Streptomyces possess a sophisticated life cycle and are the deepest source of bioactive secondary metabolites. Although morphogenesis and secondary metabolism are subject to transcriptional co-regulation, streptomycetes employ an additional mechanism to initiate the aforementioned processes. This mechanism is based on delayed translation of rare leucyl codon UUA by the only cognate tRNA(UAA)(Leu) (encoded by bldA). The bldA-based genetic switch is an extensively documented example of translational regulation in Streptomyces. Yet, after five decades since the discovery of bldA, factors that shape its function and peculiar conditionality remained elusive. Here we address the hypothesis that post-transcriptional tRNA modifications play a role in tRNA-based mechanisms of translational control in Streptomyces. Particularly, we studied two Streptomyces albus J1074 genes, XNR_1074 (miaA) and XNR_1078 (miaB), encoding tRNA (adenosine(37)-N6)-dimethylallyltransferase and tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase respectively. These enzymes produce, in a sequential manner, a hypermodified ms(2)i(6)A37 residue in most of the A36-A37-containing tRNAs. We show that miaB and especially miaA null mutant of S. albus possess altered morphogenesis and secondary metabolism. We provide genetic evidence that miaA deficiency impacts translational level of gene expression, most likely through impaired decoding of codons UXX and UUA in particular.

Published

2019

3. GenemiaAfor post‐transcriptional modification of tRNAXXAis important for morphological and metabolic differentiation inStreptomyces

Author

Koshla, Oksana, primary, Yushchuk, Oleksandr, additional, Ostash, Iryna, additional, Dacyuk, Yuriy, additional, Myronovskyi, Maksym, additional, Jäger, Gunilla, additional, Süssmuth, Roderich D., additional, Luzhetskyy, Andriy, additional, Byström, Anders, additional, Kirsebom, Leif A., additional, and Ostash, Bohdan, additional

Published

2019

4. Gene ssfg_01967 (miaB) for tRNA modification influences morphogenesis and moenomycin biosynthesis in Streptomyces ghanaensis ATCC14672

Author

Sehin, Yuliia, primary, Koshla, Oksana, additional, Dacyuk, Yuriy, additional, Zhao, Ruoxia, additional, Ross, Robert, additional, Myronovskyi, Maksym, additional, Limbach, Patrick A., additional, Luzhetskyy, Andriy, additional, Walker, Suzanne, additional, Fedorenko, Victor, additional, and Ostash, Bohdan, additional

Published

2019

5. Gene miaA for post‐transcriptional modification of tRNAXXA is important for morphological and metabolic differentiation in Streptomyces.

Author

Koshla, Oksana, Yushchuk, Oleksandr, Ostash, Iryna, Dacyuk, Yuriy, Myronovskyi, Maksym, Jäger, Gunilla, Süssmuth, Roderich D., Luzhetskyy, Andriy, Byström, Anders, Kirsebom, Leif A., and Ostash, Bohdan

Subjects

TRANSFER RNA, STREPTOMYCES, METABOLITES, SECONDARY metabolism, GENE expression, GENES

Abstract

Summary: Members of actinobacterial genus Streptomyces possess a sophisticated life cycle and are the deepest source of bioactive secondary metabolites. Although morphogenesis and secondary metabolism are subject to transcriptional co‐regulation, streptomycetes employ an additional mechanism to initiate the aforementioned processes. This mechanism is based on delayed translation of rare leucyl codon UUA by the only cognate tRNALeuUAA (encoded by bldA). The bldA–based genetic switch is an extensively documented example of translational regulation in Streptomyces. Yet, after five decades since the discovery of bldA, factors that shape its function and peculiar conditionality remained elusive. Here we address the hypothesis that post‐transcriptional tRNA modifications play a role in tRNA‐based mechanisms of translational control in Streptomyces. Particularly, we studied two Streptomyces albus J1074 genes, XNR_1074 (miaA) and XNR_1078 (miaB), encoding tRNA (adenosine(37)‐N6)‐dimethylallyltransferase and tRNA (N6‐isopentenyl adenosine(37)‐C2)‐methylthiotransferase respectively. These enzymes produce, in a sequential manner, a hypermodified ms2i6A37 residue in most of the A36‐A37‐containing tRNAs. We show that miaB and especially miaA null mutant of S. albus possess altered morphogenesis and secondary metabolism. We provide genetic evidence that miaA deficiency impacts translational level of gene expression, most likely through impaired decoding of codons UXX and UUA in particular. [ABSTRACT FROM AUTHOR]

Published

2019

6. Gene miaA for post-transcriptional modification of tRNA XXA is important for morphological and metabolic differentiation in Streptomyces.

Author

Koshla O, Yushchuk O, Ostash I, Dacyuk Y, Myronovskyi M, Jäger G, Süssmuth RD, Luzhetskyy A, Byström A, Kirsebom LA, and Ostash B

Subjects

Bacterial Proteins metabolism, Codon genetics, Gene Expression Regulation, Bacterial genetics, Genes, Bacterial genetics, Leucine-tRNA Ligase metabolism, Protein Biosynthesis genetics, Proteomics, RNA, Bacterial metabolism, RNA, Transfer, Leu genetics, RNA, Transfer, Leu metabolism, Secondary Metabolism physiology, Streptomyces metabolism, Sulfurtransferases metabolism, Alkyl and Aryl Transferases genetics, Alkyl and Aryl Transferases metabolism, Streptomyces genetics

Abstract

Members of actinobacterial genus Streptomyces possess a sophisticated life cycle and are the deepest source of bioactive secondary metabolites. Although morphogenesis and secondary metabolism are subject to transcriptional co-regulation, streptomycetes employ an additional mechanism to initiate the aforementioned processes. This mechanism is based on delayed translation of rare leucyl codon UUA by the only cognate tRNA Leu UAA (encoded by bldA). The bldA-based genetic switch is an extensively documented example of translational regulation in Streptomyces. Yet, after five decades since the discovery of bldA, factors that shape its function and peculiar conditionality remained elusive. Here we address the hypothesis that post-transcriptional tRNA modifications play a role in tRNA-based mechanisms of translational control in Streptomyces. Particularly, we studied two Streptomyces albus J1074 genes, XNR_1074 (miaA) and XNR_1078 (miaB), encoding tRNA (adenosine(37)-N6)-dimethylallyltransferase and tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase respectively. These enzymes produce, in a sequential manner, a hypermodified ms 2 i 6 A37 residue in most of the A36-A37-containing tRNAs. We show that miaB and especially miaA null mutant of S. albus possess altered morphogenesis and secondary metabolism. We provide genetic evidence that miaA deficiency impacts translational level of gene expression, most likely through impaired decoding of codons UXX and UUA in particular., (© 2019 John Wiley & Sons Ltd.)

Published

2019