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Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 42, 2007 - Issue 1
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Original Articles

Physicochemical and surface-active properties of biosurfactant produced using molasses by a Pseudomonas aeruginosa mutant

Zulfiqar A. Raza Polymer Chemistry Laboratory, National Centre of Excellence in Physical Chemistry, University of Peshawar, Peshawar, Pakistan; Environmental Biotechnology Division, National Institute for Biotechnology and Genetic Engineering, Faisalabad, Pakistan
,
Muhammad S. Khan Polymer Chemistry Laboratory, National Centre of Excellence in Physical Chemistry, University of Peshawar, Peshawar, Pakistan
&
Zafar M. Khalid Environmental Biotechnology Division, National Institute for Biotechnology and Genetic Engineering, Faisalabad, Pakistan
Pages 73-80 | Received 16 May 2006, Published online: 05 Apr 2011

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Bethania Felix Miranda Ramos, Paulo Fernando de Almeida & Fabio Alexandre Chinalia. (2022) Bacterial xanthan and ramnolipid simultaneous production using industrial oil produced water. Environmental Technology 43:7, pages 983-990.
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Ana Carmen dos Santos Mendes de Oliveira, Márcio da Silva Bezerra, Carlos Eduardo de Araujo Padilha, Aline Mendes Melchuna, Gorete Ribeiro de Macedo & Everaldo Silvino dos Santos. (2013) Recovery of Rhamnolipids Produced by Pseudomonas aeruginosa Using Acidic Precipitation, Extraction, and Adsorption on Activated Carbon. Separation Science and Technology 48:18, pages 2852-2859.
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Articles from other publishers (38)

Wasefa Begum, Bidyut Saha & Ujjwal Mandal. (2023) A comprehensive review on production of bio-surfactants by bio-degradation of waste carbohydrate feedstocks: an approach towards sustainable development. RSC Advances 13:36, pages 25599-25615.
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Letícia Martini Braz, Ana María Salazar-Bryam, Grazielle Santos Silva Andrade & Elias Basille Tambourgi. (2022) Optimization and characterization of rhamnolipids produced by Pseudomonas aeruginosa ATCC 9027 using molasses as a substrate. World Journal of Microbiology and Biotechnology 39:2.
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Sheel Ratna, Vinay Kumar, Ravi Raj Pal & Sanjay Dwivedi. 2023. Resource Recovery in Industrial Waste Waters. Resource Recovery in Industrial Waste Waters 387 406 .
V. Kavyarathna, Rakshitha Somashekhar, Navya Suresh Pashumathi, K. Bhanu Revathi & K. Shinomol George. 2023. Applications of Next Generation Biosurfactants in the Food Sector. Applications of Next Generation Biosurfactants in the Food Sector 403 447 .
Muhammad Rizwan Tariq, Zulfiqar Ali Raza, Muhammad Irfan Majeed, Asif Ayub & Muhammad Anam Khubaib. (2022) Bioreactor scale co-production of poly(hydroxyalkanoate) and rhamnolipids with distinct nitrogen sources. Biologia 77:5, pages 1391-1404.
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Nawazish Ali, Zhengjun Pang, Fenghuan Wang, Baocai Xu & Hesham R. El-Seedi. (2022) Lipopeptide Biosurfactants from Bacillus spp.: Types, Production, Biological Activities, and Applications in Food. Journal of Food Quality 2022, pages 1-19.
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Sheel Ratna, Swati Rastogi & Rajesh Kumar. (2021) Current trends for distillery wastewater management and its emerging applications for sustainable environment. Journal of Environmental Management 290, pages 112544.
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Han Sun, Lei Wang, Hongyun Nie, Zhenjun Diwu, Maiqian Nie & Bo Zhang. (2021) Optimization and characterization of rhamnolipid production by Pseudomonas aeruginosa NY3 using waste frying oil as the sole carbon . Biotechnology Progress.
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Abdelkrim Chaida, Alif Chebbi, Farid Bensalah & Andrea Franzetti. (2021) Isolation and characterization of a novel rhamnolipid producer Pseudomonas sp. LGMS7 from a highly contaminated site in Ain El Arbaa region of Ain Temouchent, Algeria. 3 Biotech 11:4.
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Farzad Raeisi, Seyyed Mojtaba Mousavi, Seyyed Alireza Hashemi, Leila Malekpour, Sonia Bahrani, Chin Wei Lai, Wei-Hung Chiang, Aziz Babapoor, Sargol Mazraedoost & Hossein Esmaeili. 2021. Green Sustainable Process for Chemical and Environmental Engineering and Science. Green Sustainable Process for Chemical and Environmental Engineering and Science 399 422 .
Sundus Nida, J.A. Moses & C. Anandharamakrishnan. 2021. Advanced Green Materials. Advanced Green Materials 279 295 .
Manish Kumar, Rashmi Rathour, Rashmi Singh, Yuqing Sun, Ashok Pandey, Edgard Gnansounou, Kun-Yi Andrew Lin, Daniel C.W. Tsang & Indu Shekhar Thakur. (2020) Bacterial polyhydroxyalkanoates: Opportunities, challenges, and prospects. Journal of Cleaner Production 263, pages 121500.
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Thilini Jayaprada, Jingming Hu, Yunyun Zhang, Huajun Feng, Dongsheng Shen, Sudarshanee Geekiyanage, Yanlai Yao & Meizhen Wang. (2020) The interference of nonylphenol with bacterial cell-to-cell communication. Environmental Pollution 257, pages 113352.
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Abdullahi Adekilekun Jimoh & Johnson Lin. (2019) Biosurfactant: A new frontier for greener technology and environmental sustainability. Ecotoxicology and Environmental Safety 184, pages 109607.
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Pedro Jiménez-Peñalver, Alejandra Rodríguez, Achlesh Daverey, Xavier Font & Teresa Gea. (2019) Use of wastes for sophorolipids production as a transition to circular economy: state of the art and perspectives. Reviews in Environmental Science and Bio/Technology 18:3, pages 413-435.
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Richa Sharma, Ravi S. Manhas & Asha Chaubey. 2019. High Value Fermentation Products. High Value Fermentation Products 205 224 .
Yunyun Zhang, Na Li, Meizhen Wang, Huajun Feng, Chao Xu & Feng Xu. (2018) Interference of non-lethal levels of graphene oxide in biofilm formation and adaptive response of quorum sensing in bacteria. Environmental Science: Nano 5:12, pages 2809-2818.
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Neda AlamdarBehnam Rasekh & Fatemeh Yazdian. (2018) Effects of Fe/SDS and Au nanoparticles on P. aeruginosa bacterial growth and biosurfactant production . IET Nanobiotechnology 12:4, pages 520-525.
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Zulfiqar Ali Raza, Sharjeel Abid & Ibrahim M. Banat. (2018) Polyhydroxyalkanoates: Characteristics, production, recent developments and applications. International Biodeterioration & Biodegradation 126, pages 45-56.
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Seba George & K. Jayachandran. 2018. Waste to Wealth. Waste to Wealth 45 58 .
Cynthia Kérzia Costa de Araújo, Alan de Oliveira Campos, Carlos Eduardo de Araújo Padilha, Francisco Canindé de Sousa Júnior, Ruthinéia Jéssica Alves do Nascimento, Gorete Ribeiro de Macedo & Everaldo Silvino dos Santos. (2017) Enhancing enzymatic hydrolysis of coconut husk through Pseudomonas aeruginosa AP 029/GLVIIA rhamnolipid preparation. Bioresource Technology 237, pages 20-26.
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Surekha K. Satpute, Grażyna A. Płaza & Arun G. Banpurkar. (2017) Biosurfactants’ Production from Renewable Natural Resources: Example of Innovativeand Smart Technology in Circular Bioeconomy. Management Systems in Production Engineering 25:1, pages 46-54.
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Qingxin Li. (2017) Rhamnolipid synthesis and production with diverse resources. Frontiers of Chemical Science and Engineering 11:1, pages 27-36.
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K. V. Deepika, M. Raghuram & P. V. Bramhachari. (2017) Rhamnolipid biosurfactant production by Pseudomonas aeruginosa strain KVD-HR42 isolated from oil contaminated mangrove sediments. African Journal of Microbiology Research 11:6, pages 218-231.
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Mohd Nazren Radzuan, Ibrahim M. Banat & James Winterburn. (2017) Production and characterization of rhamnolipid using palm oil agricultural refinery waste. Bioresource Technology 225, pages 99-105.
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Mario Alberto Martínez-Núñez & Víctor Eric López y López. (2016) Nonribosomal peptides synthetases and their applications in industry. Sustainable Chemical Processes 4:1.
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Z.A. Raza, F. Anwar, N. Ahmad, A. Rehman & N. Nasir. (2016) Polyurethane cum hydrophobic finishing of acrylic fabrics for enhanced comfort characteristics. Pigment & Resin Technology 45:3, pages 199-205.
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Carlos Eduardo de Araújo Padilha, Carlos Alberto de Araújo Padilha, Domingos Fabiano de Santana Souza, Jackson Araújo de Oliveira, Gorete Ribeiro de Macedo & Everaldo Silvino dos Santos. (2015) Prediction of rhamnolipid breakthrough curves on activated carbon and Amberlite XAD-2 using Artificial Neural Network and Group Method Data Handling models. Journal of Molecular Liquids 206, pages 293-299.
Crossref
Ibrahim M. Banat, Surekha K. Satpute, Swaranjit S. Cameotra, Rajendra Patil & Narendra V. Nyayanit. (2014) Cost effective technologies and renewable substrates for biosurfactants’ production. Frontiers in Microbiology 5.
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Zulfiqar Ali Raza, Naseer Ahmad & Shahid Kamal. (2014) Multi-response optimization of rhamnolipid production using grey rational analysis in Taguchi method. Biotechnology Reports 3, pages 86-94.
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K.V. Deepika, B. Anand Kumar, S. Gnanender & P.V. Bramhachar. (2014) Pseudomonas aeruginosa KVD1 an Efficient Biosurfactant Producing Bacteria Isolated from Krishna Delta Mangrove Sediments. Research Journal of Environmental Sciences 8:3, pages 134-141.
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Partap Bir Singh & Harvinder Singh Saini. 2014. Biotransformation of Waste Biomass into High Value Biochemicals. Biotransformation of Waste Biomass into High Value Biochemicals 445 471 .
S. George & K. Jayachandran. (2013) Production and characterization of rhamnolipid biosurfactant from waste frying coconut oil using a novel Pseudomonas aeruginosa D . Journal of Applied Microbiology 114:2, pages 373-383.
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Marius Henkel, Markus M. Müller, Johannes H. Kügler, Roberta B. Lovaglio, Jonas Contiero, Christoph Syldatk & Rudolf Hausmann. (2012) Rhamnolipids as biosurfactants from renewable resources: Concepts for next-generation rhamnolipid production. Process Biochemistry 47:8, pages 1207-1219.
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Rashmi Rekha Saikia, Suresh Deka, Manab Deka & Hemen Sarma. (2011) Optimization of environmental factors for improved production of rhamnolipid biosurfactant by Pseudomonas aeruginosa RS29 on glycerol . Journal of Basic Microbiology 52:4, pages 446-457.
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Rashmi Rekha Saikia, Suresh Deka, Manab Deka & Ibrahim M. Banat. (2011) Isolation of biosurfactant-producing Pseudomonas aeruginosa RS29 from oil-contaminated soil and evaluation of different nitrogen sources in biosurfactant production. Annals of Microbiology 62:2, pages 753-763.
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Surekha K. Satpute, Smita S. Bhuyan, Karishma R. Pardesi, Shilpa S. Mujumdar, Prashant K. Dhakephalkar, Ashvini M. Shete & Balu A. Chopade. 2010. Biosurfactants. Biosurfactants 14 41 .
J. M. Khire. 2010. Biosurfactants. Biosurfactants 146 157 .

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