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Marine sediment-derived Streptomyces strain produces angucycline antibiotics against multidrug-resistant Staphylococcus aureus harboring SCCmec type 1 gene

dc.contributor.authorSabido, Edna M.
dc.contributor.authorTenebro, Chuckcris M.
dc.contributor.authorSuarez, Angelica Faith L.
dc.contributor.authorOng, Sarah Diane C.
dc.contributor.authorTrono, Dana Joanne Von L.
dc.contributor.authorAmago, Diana S.
dc.contributor.authorEvangelista, Jose E. Jr
dc.contributor.authorReynoso, Ann Marielle Q.
dc.contributor.authorVillalobos, Ivy Grace M.
dc.contributor.authorAlit, Luigi Dan D.
dc.contributor.authorSurigao, Cherryl F.
dc.contributor.authorVillanueva, Christelle A.
dc.contributor.authorSaludes, Jonel P.
dc.contributor.authorDalisay, Doralyn S.
dc.coverage.spatialCarlesen
dc.date.accessioned2024-04-27T06:47:49Z
dc.date.available2024-04-27T06:47:49Z
dc.date.issued2020-09-23
dc.identifier.citationSabido, E. M., Tenebro, C. P., Suarez, A. F. L., Ong, S. D. C., Trono, D. J. V. L., Amago, D. S., Evangelista, J. E., Jr., Reynoso, A. M. Q., Villalobos, I. G. M., Alit, L. D. D., Surigao, C. F., Villanueva, C. A., Saludes, J. P., & Dalisay, D. S. (2020). Marine sediment-derived Streptomyces strain produces angucycline antibiotics against multidrug-resistant Staphylococcus aureus harboring SCCmec type 1 gene. Journal of Marine Science and Engineering, 8(10), 734.en
dc.identifier.issn20771312
dc.identifier.urihttps://hdl.handle.net/20.500.14353/375
dc.description.abstractThe Philippine archipelago is geographically positioned in the tropics with rich areas of marine biodiversity. Its marine sediments harbor actinomycetes that exhibit antibacterial activity. Screening of actinomycetes isolated from marine sediments collected near the coast of Islas de Gigantes, Iloilo showed one isolate that exhibited high activity against the multidrug-resistant Staphylococcus aureus (MRSA) strain carrying the Staphylococcal Cassette Chromosome mec (SCCmec) type 1 gene, a biomarker for drug resistance. The isolate was identified as Streptomyces sp. strain DSD011 based on its 16s rRNA and protein-coding genes (atpD, recA, rpoB, and trpB) sequences, and was found to be a new species of salt-tolerant marine Streptomyces. Further, the strain harbors both non-ribosomal peptide synthetase (NRPS) and type II polyketide synthase (PKS) in its genome. The targeted chromatographic isolation and chemical investigations by Liquid Chromatography Mass Spectrometry-Time of Flight (LCMS-TOF), tandem mass spectrometry (MS/MS), and Global Natural Product Social molecular networking (GNPS) of the antibiotics produced by the strain afforded the two polycyclic aromatic polyketide angucycline glycosides, fridamycin A (1) and fridamycin D (2), which are products of type II PKS biosynthesis. Compounds 1 and 2 displayed antibacterial activity against MRSA with minimum inhibitory concentration (MIC) of 500 μg/mL and 62.5 μg/mL, respectively. These results suggest that the underexplored marine sediments near the coast of Islas de Gigantes, Iloilo offer access to undiscovered Streptomyces species that are invaluable sources of antibiotic leads.en
dc.description.sponsorshipThis work was funded by the Tuklas Lunas Development Center Program of the Department of Science and Technology—Philippine Council for Health Research and Development (DOST-PCHRD) and the University of San Agustin Professorial Chair Grant. The authors acknowledge the invaluable support of Julius Tagomata and Cecilio Gonzales for collecting the marine sediment samples, and the local government of Islas de Gigantes, Carles, Iloilo, Philippines for the permission. In addition, Dalisay and Saludes wish to acknowledge the Balik Scientist Program of the Philippines Department of Science and Technology (DOST), through the Philippine Council for Health Research and Development (PCHRD), for the opportunity to serve the Filipino community through science, technology, and innovation. The Balik (Filipino word for Returning) Scientist Program (BSP) seeks highly trained Filipino scientists, technologists, experts, and professionals residing abroad to return to the Philippines and transfer their expertise to the local community for the acceleration of scientific, agro-industrial, and economic development of the country. Special thanks to Hannah Valencia, Abigael Quiachon, and Jasmine Velo for the technical support; Suzanne Ynion for administrative support; and Yzabel Layson for editing the manuscript. The authors thank Zhen Jie Low of Waters Pacific Pte Ltd., Singapore, Singapore for the QTOF-MS service; Ma. Wennie Pauline C. Caelian of SEAFDEC, Tigbauan, Iloilo for the SEM service; and Stephen Sabinay of WVSU Biotech Research and Learning Center for the use of gel doc imaging and documentation systems. The authors wish to thank the Research Information, Communication, and Utilization Division (RICUD) of DOST-PCHRD for supporting the publication of this manuscript.en
dc.language.isoenen
dc.publisherMDPIen
dc.subjectMarine Sedimentsen
dc.subjectAntibiotic angucycline glycosidesen
dc.subjectMultidrug-resistant Staphylococcus aureusen
dc.subjectSCCmec geneen
dc.subjectType II polyketide synthaseen
dc.subjectMRSAen
dc.subjectSCCmecen
dc.subjectStaphylococcal Cassette Chromosome mecen
dc.subjectLiquid Chromatography Mass Spectrometry-Time of Flighten
dc.subjectLCMS-TOFen
dc.subjecttandem mass spectrometryen
dc.subjectMS/MSen
dc.subjectGlobal Natural Product Social molecular networkingen
dc.subjectGNPSen
dc.subjectIslas de Gigantesen
dc.subjectantibiotic leadsen
dc.subjectChromatographic isolationen
dc.subjectSalinispora tropicaen
dc.subjectSalinosporamide Aen
dc.subjectMarine actinomycetesen
dc.subjectAntibiotic anthracycline shunt metabolites bisanhydroaklavinoneen
dc.subject1-hydroxybisanhydroaklavinoneen
dc.subjectPhilippine marine sedimenten
dc.subjectActinomycete Strain DSD011en
dc.subject.lcshMarine sedimentsen
dc.subject.lcshDrug resistance in microorganismsen
dc.subject.lcshMultidrug resistanceen
dc.subject.lcshActinobacteriaen
dc.subject.meshDrug Resistance, Microbialen
dc.subject.meshStreptomyces antibioticusen
dc.titleMarine sediment-derived Streptomyces strain produces angucycline antibiotics against multidrug-resistant Staphylococcus aureus harboring SCCmec type 1 geneen
dc.typeArticleen
dcterms.accessRightsOpen accessen
dc.citation.journaltitleJournal of Marine Science and Engineeringen
dc.citation.volume8en
dc.citation.issue10en
dc.citation.firstpage734en
local.subject.scientificnameStreptomyces marinusen
local.subject.scientificnameStaphylococcus aureusen
local.subject.scientificnameStreptomycesen
local.subject.scientificnameStaphylococcusen
local.subject.scientificnameStreptomyces griseorubensen
dc.identifier.doi10.3390/jmse8100734
local.isIndexedByISIen
local.isIndexedByScopusen
dc.subject.sdgSDG 14 - Life below water


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