This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Alyousif N.A., Al-Tamimi W.H., Al-Luaibi Y.Y.: Screening, enhance production and characterization of biosurfactant produced by Pseudomonas aeruginosa isolated from hydrocarbon contaminated soil. EurAsian Journal of BioSciences, 14 (2), (2020)AlyousifN.A.Al-TamimiW.H.Al-LuaibiY.Y.Screening, enhance production and characterization of biosurfactant produced by Pseudomonas aeruginosa isolated from hydrocarbon contaminated soil1422020Search in Google Scholar
Araújo S.C.d.S., Silva-Portela R.C., de Lima D.C., da Fonsêca M.M.B., Araújo W.J., da Silva U.B., Napp A.P., Pereira E., Vainstein M.H., Agnez-Lima L.F.: MBSP1: a biosurfactant protein derived from a metagenomic library with activity in oil degradation. Sci Rep.10 (1), 1–13 (2020)AraújoS.C.d.S.Silva-PortelaR.C.de LimaD.C.da FonsêcaM.M.B.AraújoW.J.da SilvaU.B.NappA.P.PereiraE.VainsteinM.H.Agnez-LimaL.F.MBSP1: a biosurfactant protein derived from a metagenomic library with activity in oil degradation1011132020Search in Google Scholar
Bacon C., Hinton D., Mitchell T.: Screening of Bacillus mojavensis biofilms and biosurfactants using laser ablation electrospray ionization mass spectroscopy. J Appl Microbiol.125 (3), 867–875 (2018)BaconC.HintonD.MitchellT.Screening of Bacillus mojavensis biofilms and biosurfactants using laser ablation electrospray ionization mass spectroscopy12538678752018Search in Google Scholar
Bader F.D., Almansoory A.F., Al-Tamimi W.H.: Screening potential of biosurfactant production from local bacterial isolates. Marsh Bulletin, 16 (2), (2021)BaderF.D.AlmansooryA.F.Al-TamimiW.H.Screening potential of biosurfactant production from local bacterial isolates1622021Search in Google Scholar
Bhadra S., Chettri D., Kumar Verma A.: Biosurfactants: Secondary Metabolites Involved in the Process of Bioremediation and Biofilm Removal. Appl Biochem Biotechnol. 1–27 (2022)BhadraS.ChettriD.Kumar VermaA.Biosurfactants: Secondary Metabolites Involved in the Process of Bioremediation and Biofilm Removal1272022Search in Google Scholar
De Rienzo M.D., Hou R., Martin P.: Use of electrical resistance tomography (ERT) for the detection of biofilm disruption mediated by biosurfactants. Food Bioprod Process.110, 1–5 (2018)De RienzoM.D.HouR.MartinP.Use of electrical resistance tomography (ERT) for the detection of biofilm disruption mediated by biosurfactants110152018Search in Google Scholar
Devi S.P., Jha D.K.: Screening of Bacteria Isolated from Refinery Sludge of Assam for Hydrocarbonoclastic Activities. Journal of Pure and Applied microbiology and biotechnology, 14 (2), 1453–1465 (2020)DeviS.P.JhaD.K.Screening of Bacteria Isolated from Refinery Sludge of Assam for Hydrocarbonoclastic Activities142145314652020Search in Google Scholar
El-Shahed M., Sadik M., Mabrouk M., Sedik M.: Isolation, refinement and screening of heavy metals tolerant biosurfactant-producers microorganisms from Egyptian soil. Plant Archives, 20, 1831–1842 (2020)El-ShahedM.SadikM.MabroukM.SedikM.Isolation, refinement and screening of heavy metals tolerant biosurfactant-producers microorganisms from Egyptian soil20183118422020Search in Google Scholar
Eldin A.M., Kamel Z., Hossam N.: Isolation and genetic identification of yeast producing biosurfactants, evaluated by different screening methods. Microchem J.146, 309–314 (2019)EldinA.M.KamelZ.HossamN.Isolation and genetic identification of yeast producing biosurfactants, evaluated by different screening methods1463093142019Search in Google Scholar
Gaur V.K., Sharma P., Gupta S., Varjani S., Srivastava J., Wong J.W., Ngo H.H.: Opportunities and challenges in omics approaches for biosurfactant production and feasibility of site remediation: Strategies and advancements. Environmental Technology and Innovation, 25, 102132 (2022)GaurV.K.SharmaP.GuptaS.VarjaniS.SrivastavaJ.WongJ.W.NgoH.H.Opportunities and challenges in omics approaches for biosurfactant production and feasibility of site remediation: Strategies and advancements251021322022Search in Google Scholar
Ghasemi A., Moosavi-Nasab M., Setoodeh P., Mesbahi G., Yousefi G.: Biosurfactant production by lactic acid bacterium Pediococcus dextrinicus SHU1593 grown on different carbon sources: strain screening followed by product characterization. Sci Rep.9 (1), 1–12 (2019)GhasemiA.Moosavi-NasabM.SetoodehP.MesbahiG.YousefiG.Biosurfactant production by lactic acid bacterium Pediococcus dextrinicus SHU1593 grown on different carbon sources: strain screening followed by product characterization911122019Search in Google Scholar
Guerra A.B., Oliveira J.S., Silva-Portela R.C., Araújo W., Carlos A.C., Vasconcelos A.T.R., Freitas A.T., Domingos Y.S., de Farias M.F., Fernandes G.J.T.: Metagenome enrichment approach used for selection of oil-degrading bacteria consortia for drill cutting residue bioremediation. Environ Pollut.235, 869–880 (2018)GuerraA.B.OliveiraJ.S.Silva-PortelaR.C.AraújoW.CarlosA.C.VasconcelosA.T.R.FreitasA.T.DomingosY.S.de FariasM.F.FernandesG.J.T.Metagenome enrichment approach used for selection of oil-degrading bacteria consortia for drill cutting residue bioremediation2358698802018Search in Google Scholar
Islam N.F., Sarma H.: Metagenomics Approach for Selection of Biosurfactant Producing Bacteria from Oil Contaminated Soil: An Insight Into Its Technology. In: Biosurfactants for a Sustainable Future: Production and Applications in the Environment and Biomedicine, 2021, p. 43–58.IslamN.F.SarmaH.Metagenomics Approach for Selection of Biosurfactant Producing Bacteria from Oil Contaminated Soil: An Insight Into Its TechnologyIn:20214358Search in Google Scholar
Jakka Ravindran S., Kumar R., Srimany A., Philip L., Pradeep T.: Early detection of biofouling on water purification membranes by ambient ionization mass spectrometry imaging. Anal Chem.90 (1), 988–997 (2018)Jakka RavindranS.KumarR.SrimanyA.PhilipL.PradeepT.Early detection of biofouling on water purification membranes by ambient ionization mass spectrometry imaging9019889972018Search in Google Scholar
Kaboré D., Gagnon M., Roy D., Sawadogo-Lingani H., Diawara B., LaPointe G.: Rapid screening of starter cultures for maari based on antifungal properties. Microbiol Res.207, 66–74 (2018)KaboréD.GagnonM.RoyD.Sawadogo-LinganiH.DiawaraB.LaPointeG.Rapid screening of starter cultures for maari based on antifungal properties20766742018Search in Google Scholar
Khanpour-Alikelayeh E., Partovinia A., Talebi A., Kermanian H.: Investigation of Bacillus licheniformis in the biodegradation of Iranian heavy crude oil: A two-stage sequential approach containing factor-screening and optimization. Ecotoxicol Environ Saf.205, 111103 (2020)Khanpour-AlikelayehE.PartoviniaA.TalebiA.KermanianH.Investigation of Bacillus licheniformis in the biodegradation of Iranian heavy crude oil: A two-stage sequential approach containing factor-screening and optimization2051111032020Search in Google Scholar
Koim-Puchowska B., Kłosowski G., Mikulski D., Menka A.: Evaluation of various methods of selection of B. subtilis strains capable of secreting surface-active compounds. PLoS One, 14 (11), e0225108 (2019)Koim-PuchowskaB.KłosowskiG.MikulskiD.MenkaA.Evaluation of various methods of selection of B. subtilis strains capable of secreting surface-active compounds1411e02251082019Search in Google Scholar
Kubicki S., Bator I., Jankowski S., Schipper K., Tiso T., Feldbrügge M., Blank L.M., Thies S., Jaeger K.-E.: A straightforward assay for screening and quantification of biosurfactants in microbial culture supernatants. Frontiers in bioengineering and biotechnology, 958 (2020)KubickiS.BatorI.JankowskiS.SchipperK.TisoT.FeldbrüggeM.BlankL.M.ThiesS.JaegerK.-E.A straightforward assay for screening and quantification of biosurfactants in microbial culture supernatants9582020Search in Google Scholar
Mishra N., Agsar D., Deepthi S.S., Kattegouda U.M., Shetty P.R., Pandey V.: Novel application of Nerium leaf and Image J software in drop collapse assay for rapid screening of biosurfactant producing microorganisms. Indian J Exp Biol.59 (7), 484–492 (2021)MishraN.AgsarD.DeepthiS.S.KattegoudaU.M.ShettyP.R.PandeyV.Novel application of Nerium leaf and Image J software in drop collapse assay for rapid screening of biosurfactant producing microorganisms5974844922021Search in Google Scholar
Muthukumaran M.: Advances in bioremediation of nonaqueous phase liquid pollution in soil and water. In: Biological Approaches to Controlling Pollutants, Elsevier, 2022, p. 191–231.MuthukumaranM.Advances in bioremediation of nonaqueous phase liquid pollution in soil and waterIn:Elsevier2022191231Search in Google Scholar
Nayarisseri A., Singh P., Singh S.K.: Screening, isolation and characterization of biosurfactant producing Bacillus subtilis strain ANSKLAB03. Bioinformation, 14(6), 304 (2018)NayarisseriA.SinghP.SinghS.K.Screening, isolation and characterization of biosurfactant producing Bacillus subtilis strain ANSKLAB031463042018Search in Google Scholar
Oliveira J.S., Araujo W., Lopes Sales A.I., Brito Guerra A.d., Silva Araújo S.C.d., de Vasconcelos A.T.R., Agnez-Lima L.F., Freitas A.T.: BioSurfDB: knowledge and algorithms to support biosurfactants and biodegradation studies. Database, 2015 (2015)OliveiraJ.S.AraujoW.Lopes SalesA.I.Brito GuerraA.d.Silva AraújoS.C.d.de VasconcelosA.T.R.Agnez-LimaL.F.FreitasA.T.BioSurfDB: knowledge and algorithms to support biosurfactants and biodegradation studies20152015Search in Google Scholar
Ong S.A., Wu J.C.: A simple method for rapid screening of biosurfactant-producing strains using bromothymol blue alone. Biocatalysis and Agricultural Biotechnology, 16, 121–125 (2018)OngS.A.WuJ.C.A simple method for rapid screening of biosurfactant-producing strains using bromothymol blue alone161211252018Search in Google Scholar
Pardhi D., Panchal R., Rajput K.: Screening of biosurfactant producing bacteria and optimization of production conditions for Pseudomonas guguanensis D30. Biosci Biotechnol Res Commun.13 (1), 170–179 (2020)PardhiD.PanchalR.RajputK.Screening of biosurfactant producing bacteria and optimization of production conditions for Pseudomonas guguanensis D301311701792020Search in Google Scholar
Purwasena I.A., Astuti D.I., Syukron M., Amaniyah M., Sugai Y.: Stability test of biosurfactant produced by Bacillus licheniformis DS1 using experimental design and its application for MEOR. Journal of Petroleum Science and Engineering, 183, 106383 (2019)PurwasenaI.A.AstutiD.I.SyukronM.AmaniyahM.SugaiY.Stability test of biosurfactant produced by Bacillus licheniformis DS1 using experimental design and its application for MEOR1831063832019Search in Google Scholar
Sato S., Fukuoka T., Saika A., Koshiyama T., Morita T.: A new screening approach for glycolipid-type biosurfactant producers using MALDI-TOF/MS. Journal of Oleo Science, 68(12), 1287–1294 (2019)SatoS.FukuokaT.SaikaA.KoshiyamaT.MoritaT.A new screening approach for glycolipid-type biosurfactant producers using MALDI-TOF/MS6812128712942019Search in Google Scholar
Sayers E.W., Beck J., Bolton E.E., Bourexis D., Brister J.R., Canese K., Comeau D.C., Funk K., Kim S., Klimke W.: Database resources of the national center for biotechnology information. Nucleic Acids Res.49 (D1), D10 (2021)SayersE.W.BeckJ.BoltonE.E.BourexisD.BristerJ.R.CaneseK.ComeauD.C.FunkK.KimS.KlimkeW.Database resources of the national center for biotechnology information49D1D102021Search in Google Scholar
Singh A., Chaturvedi K.R., Sharma T.: Natural surfactant for sustainable carbon utilization in cleaner production of fossil fuels: Extraction, characterization and application studies. Journal of Environmental Chemical Engineering, 9 (5), 106231 (2021)SinghA.ChaturvediK.R.SharmaT.Natural surfactant for sustainable carbon utilization in cleaner production of fossil fuels: Extraction, characterization and application studies951062312021Search in Google Scholar
Sohail R., Jamil N.: Isolation of biosurfactant producing bacteria from Potwar oil fields: Effect of non-fossil fuel based carbon sources. Green Processing and Synthesis, 9 (1), 77–86 (2020)SohailR.JamilN.Isolation of biosurfactant producing bacteria from Potwar oil fields: Effect of non-fossil fuel based carbon sources9177862020Search in Google Scholar
Tayeb A.M., Mostafa N., Olfat M., Farouq R., Monazie A.M.: Investigation of Biosurfactants Production from Petroleum Oil Wastes Using Response Surface Methodology. Petroleum Chemistry, 1–8 (2022)TayebA.M.MostafaN.OlfatM.FarouqR.MonazieA.M.Investigation of Biosurfactants Production from Petroleum Oil Wastes Using Response Surface Methodology182022Search in Google Scholar
Touseef Í., Ahmad Ê.A.: A combination of rapid and easy assays of biosurfactant producing bacterial strain isolated from automobiles repairing workshop in Aligarh. Proceedings of VSUET, 80 (3 (77)), 153–1563 (2018)TouseefÍ.AhmadÊ.A.A combination of rapid and easy assays of biosurfactant producing bacterial strain isolated from automobiles repairing workshop in Aligarh803 (77)15315632018Search in Google Scholar
Trudgeon B., Dieser M., Balasubramanian N., Messmer M., Foreman C.M.: Low-temperature biosurfactants from polar microbes. Microorganisms, 8 (8), 1183 (2020)TrudgeonB.DieserM.BalasubramanianN.MessmerM.ForemanC.M.Low-temperature biosurfactants from polar microbes8811832020Search in Google Scholar
Twigg M.S., Baccile N., Banat I.M., Déziel E., Marchant R., Roelants S., Van Bogaert I.N.: Microbial biosurfactant research: time to improve the rigour in the reporting of synthesis, functional characterization and process development. Microb Biotechnol.14 (1), 147–170 (2021)TwiggM.S.BaccileN.BanatI.M.DézielE.MarchantR.RoelantsS.Van BogaertI.N.Microbial biosurfactant research: time to improve the rigour in the reporting of synthesis, functional characterization and process development1411471702021Search in Google Scholar
Williams W., Kunorozva L., Klaiber I., Henkel M., Pfannstiel J., Van Zyl L.J., Hausmann R., Burger A., Trindade M.: Novel metagenome-derived ornithine lipids identified by functional screening for biosurfactants. Appl Microbiol Biotechnol.103 (11), 4429–4441 (2019)WilliamsW.KunorozvaL.KlaiberI.HenkelM.PfannstielJ.Van ZylL.J.HausmannR.BurgerA.TrindadeM.Novel metagenome-derived ornithine lipids identified by functional screening for biosurfactants10311442944412019Search in Google Scholar