(2021. december 21.) „Genome instability drives epistatic adaptation in the human pathogen Leishmania” (angol nyelven). Proceedings of the National Academy of Sciences118 (51), e2113744118. o. DOI:10.1073/pnas.2113744118. ISSN0027-8424. PMID34903666. PMC8713814.
(2019. március 1.) „Post-transcriptional pseudouridylation in mRNA as well as in some major types of noncoding RNAs”. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms1862 (3), 230–239. o. DOI:10.1016/j.bbagrm.2018.11.002. ISSN1874-9399. PMID30414851. PMC6401265.
Martinez NM, Su A, Burns MC, Nussbacher JK, Schaening C, Sathe S, Yeo GW, Gilbert WV (2022. február 3.). „Pseudouridine synthases modify human pre-mRNA co-transcriptionally and affect pre-mRNA processing”. Mol Cell82 (3), 645–659.e9. o. DOI:10.1016/j.molcel.2021.12.023. PMID35051350. PMC8859966.
Kumudie Jayalath, Sean Frisbie, Minhchau To, Sanjaya Abeysirigunawardena (2020. május 30.). „Pseudouridine Synthase RsuA Captures an Assembly Intermediate That Is Stabilized by Ribosomal Protein S17”. Biomolecules. DOI:10.3390/biom10060841. PMID32486254. PMC7356742. (Hozzáférés: 2023. június 13.)
Bakin A., Kowalak J.A., McCloskey J.A., Ofengand J. (1994. szeptember 11.). „The single pseudouridine residue in Escherichia coli 16S RNA is located at position 516” 22 (18). DOI:10.1093/nar/22.18.3681. PMID7524026. PMC308345.
Kalsotra, Auinash (2016. november 2.). „Faculty of 1000 evaluation for Transcriptome-wide mapping reveals widespread dynamic-regulated pseudouridylation of ncRNA and mRNA.”. DOI:10.3410/f.718875945.793524920.
(2016. október) „Pseudouridylation of 7 SK sn RNA promotes 7 SK sn RNP formation to suppress HIV ‐1 transcription and escape from latency”. EMBO Reports17 (10), 1441–1451. o. DOI:10.15252/embr.201642682. ISSN1469-221X. PMID27558685. PMC5048380.
(2021. december 21.) „Genome instability drives epistatic adaptation in the human pathogen Leishmania” (angol nyelven). Proceedings of the National Academy of Sciences118 (51), e2113744118. o. DOI:10.1073/pnas.2113744118. ISSN0027-8424. PMID34903666. PMC8713814.
(2019. március 1.) „Post-transcriptional pseudouridylation in mRNA as well as in some major types of noncoding RNAs”. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms1862 (3), 230–239. o. DOI:10.1016/j.bbagrm.2018.11.002. ISSN1874-9399. PMID30414851. PMC6401265.
Martinez NM, Su A, Burns MC, Nussbacher JK, Schaening C, Sathe S, Yeo GW, Gilbert WV (2022. február 3.). „Pseudouridine synthases modify human pre-mRNA co-transcriptionally and affect pre-mRNA processing”. Mol Cell82 (3), 645–659.e9. o. DOI:10.1016/j.molcel.2021.12.023. PMID35051350. PMC8859966.
Kumudie Jayalath, Sean Frisbie, Minhchau To, Sanjaya Abeysirigunawardena (2020. május 30.). „Pseudouridine Synthase RsuA Captures an Assembly Intermediate That Is Stabilized by Ribosomal Protein S17”. Biomolecules. DOI:10.3390/biom10060841. PMID32486254. PMC7356742. (Hozzáférés: 2023. június 13.)
Bakin A., Kowalak J.A., McCloskey J.A., Ofengand J. (1994. szeptember 11.). „The single pseudouridine residue in Escherichia coli 16S RNA is located at position 516” 22 (18). DOI:10.1093/nar/22.18.3681. PMID7524026. PMC308345.
(2016. október) „Pseudouridylation of 7 SK sn RNA promotes 7 SK sn RNP formation to suppress HIV ‐1 transcription and escape from latency”. EMBO Reports17 (10), 1441–1451. o. DOI:10.15252/embr.201642682. ISSN1469-221X. PMID27558685. PMC5048380.
(2021. december 21.) „Genome instability drives epistatic adaptation in the human pathogen Leishmania” (angol nyelven). Proceedings of the National Academy of Sciences118 (51), e2113744118. o. DOI:10.1073/pnas.2113744118. ISSN0027-8424. PMID34903666. PMC8713814.
(2019. március 1.) „Post-transcriptional pseudouridylation in mRNA as well as in some major types of noncoding RNAs”. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms1862 (3), 230–239. o. DOI:10.1016/j.bbagrm.2018.11.002. ISSN1874-9399. PMID30414851. PMC6401265.
Martinez NM, Su A, Burns MC, Nussbacher JK, Schaening C, Sathe S, Yeo GW, Gilbert WV (2022. február 3.). „Pseudouridine synthases modify human pre-mRNA co-transcriptionally and affect pre-mRNA processing”. Mol Cell82 (3), 645–659.e9. o. DOI:10.1016/j.molcel.2021.12.023. PMID35051350. PMC8859966.
Kumudie Jayalath, Sean Frisbie, Minhchau To, Sanjaya Abeysirigunawardena (2020. május 30.). „Pseudouridine Synthase RsuA Captures an Assembly Intermediate That Is Stabilized by Ribosomal Protein S17”. Biomolecules. DOI:10.3390/biom10060841. PMID32486254. PMC7356742. (Hozzáférés: 2023. június 13.)
Bakin A., Kowalak J.A., McCloskey J.A., Ofengand J. (1994. szeptember 11.). „The single pseudouridine residue in Escherichia coli 16S RNA is located at position 516” 22 (18). DOI:10.1093/nar/22.18.3681. PMID7524026. PMC308345.
(2016. október) „Pseudouridylation of 7 SK sn RNA promotes 7 SK sn RNP formation to suppress HIV ‐1 transcription and escape from latency”. EMBO Reports17 (10), 1441–1451. o. DOI:10.15252/embr.201642682. ISSN1469-221X. PMID27558685. PMC5048380.
(2021. december 21.) „Genome instability drives epistatic adaptation in the human pathogen Leishmania” (angol nyelven). Proceedings of the National Academy of Sciences118 (51), e2113744118. o. DOI:10.1073/pnas.2113744118. ISSN0027-8424. PMID34903666. PMC8713814.
(2019. március 1.) „Post-transcriptional pseudouridylation in mRNA as well as in some major types of noncoding RNAs”. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms1862 (3), 230–239. o. DOI:10.1016/j.bbagrm.2018.11.002. ISSN1874-9399. PMID30414851. PMC6401265.
(2016. október) „Pseudouridylation of 7 SK sn RNA promotes 7 SK sn RNP formation to suppress HIV ‐1 transcription and escape from latency”. EMBO Reports17 (10), 1441–1451. o. DOI:10.15252/embr.201642682. ISSN1469-221X. PMID27558685. PMC5048380.