https://orcid.org/0000-0002-9201-3532
References
- Aanniz T, Ouadghiri M, Melloul M, Swings J, Elfahime E, Ibijbijen J, Ismaili M, Amar M. 2015. Thermophilic bacteria in Moroccan hot springs, salt marshes and desert soils. Braz J Microbiol. 46(2):443–453.
- Ali P, Shah AA, Hasan F, Hertkorn N, Gonsior M, Sajjad W, Chen F. 2020. A glacier bacterium produces high yield of cryoprotective exopolysaccharide. Front Microbiol. 10:3096.
- Banerjee A, Gupta P, Nigam V, Bandopadhyay R. 2019. Bacterial exopolysaccharides from extreme marine habitat of Southern Ocean: production and partial characterization. Gayana (Concepc). 83(2):126–134.
- Casillo A, Parrilli E, Sannino F, Mitchell DE, Gibson MI, Marino G, Lanzetta R, Parrilli M, Cosconati S, Novellino E, et al. 2017. Structure-activity relationship of the exopolysaccharide from a psychrophilic bacterium: a strategy for cryoprotection. Carbohydr Polym. 156:364–371.
- Chikkanna A, Ghosh D, Kishore A. 2018. Expression and characterization of a potential exopolysaccharide from a newly isolated halophilic thermotolerant bacteria Halomonas nitroreducens strain WB1. PeerJ. 6:e4684.
- Deep K, Poddar A, Das SK. 2013. Anoxybacillus suryakundensis sp. nov, a moderately thermophilic, alkalitolerant bacterium isolated from hot spring at Jharkhand, India. PLoS One. 8(12):e85493.
- Dhagat S, Jujjavarapu SE. 2021. Biorefinery system for production of thermostable exopolysaccharide by a novel thermophile Brevibacillus borstelensis MK878423 and its study on impact of glucose utilization. Biomass Convers. Biorefinery. 1–11.
- Garcia-Cubero R, Cabanelas ITD, Sijtsma L, Kleinegris DM, Barbosa MJ. 2018. Production of exopolysaccharide by Botryococcus braunii CCALA 778 under laboratory simulated Mediterranean climate conditions. Algal Res. 29:330–336.
- Ibrahim HA, Abou Elhassayeb HE, El-Sayed WM. 2022. Potential functions and applications of diverse microbial exopolysaccharides in marine environments. J Genet Eng Biotechnol. 20(1):21.
- Janczarek M, Rachwał K, Cieśla J, Ginalska G, Bieganowski A. 2015. Production of exopolysaccharide by Rhizobium leguminosarum bv. trifolii and its role in bacterial attachment and surface properties. Plant Soil. 388(1-2):211–227.
- Kambourova M, Radchenkova N, Tomova I, Bojadjieva I. 2016. Thermophiles as a promising source of exopolysaccharides with interesting properties. In Biotechnology of Extremophiles: advances and Challenges, Springer Cham. 117–139.
- Maugeri TL, Gugliandolo C, Caccamo D, Stackebrandt E. 2001. A polyphasic taxonomic study of thermophilic bacilli from shallow, marine vents. Syst Appl Microbiol. 24(4):572–587.
- Molina IJ, Ruiz-Ruiz C, Quesa da E B. 2013. Biomedical application of exopolysaccharides produced by microorganism isolated from extreme environment. In: Singh OV, editors. Extremophiles: sustainable resources and biotechnological implications: sustainable resources and biotechnological implications. Wiley, Hoboken, p. 335–355.
- Nampoothiri KM, Beena DJ, Vasanthakumari DS, Ismail B. 2017. Health benefits of exopolysaccharides in fermented foods. In Fermented foods in health and disease prevention. Boston: Academic Press, p. 49–62.
- Panda MK, Sahu MK, Tayung K. 2013. Isolation and characterization of a thermophilic Bacillus sp. with protease activity isolated from hot spring of Tarabalo, Odisha, India. Iran. J. Microbiol. 5(2):159.
- Panosyan H, Di Donato P, Poli A, Nicolaus B. 2018. Production and characterization of exopolysaccharides by Geobacillus thermodenitrificans ArzA-6 and Geobacillus toebii ArzA-8 strains isolated from an Armenian geothermal spring. Extremophiles. 22(5):725–737.
- Pawar ST, Bhosale AA, Gawade TB, Nale TR. 2013. Isolation, screening and optimization of exopolysaccharides producing bacterium from saline soil. J. Micrbiol. Biotechnol. Res. 3:24–31.
- Poddar A, Lepcha RT, Das SK. 2014. Taxonomic study of the genus Tepidiphilus: transfer of Petrobacter succinatimandens to the genus Tepidiphilus as Tepidiphilus succinatimandens comb. nov., emended description of the genus Tepidiphilus and description of Tepidiphilus thermophilus sp. nov., isolated from a terrestrial hot spring. Int J Syst Evol Microbiol. 64(Pt 1):228–235.
- Poli A, Di Donato P, Tommonaro G, Abbamondi GR, Finore I, Nicolaus B. 2018. Exopolysaccharide-producing microorganisms from extreme areas: chemistry and application. Microorg Sustain. 405:433.
- Poli A, Finore I, Romano I, Gioiello A, Lama L, Nicolaus B. 2017. Microbial diversity in extreme marine habitats and their biomolecules. Microorganisms. 5(2):25.
- Reizer J, Grossowicz N, Barenholz Y. 1985. The effect of growth temperature on the thermotropic behavior of the membranes of a thermophilic Bacillus. Composition-structure-function relationships. Biochim Biophys Acta. 815(2):268–280.
- Sardari RR, Kulcinskaja E, Ron EY, Björnsdóttir S, Friðjónsson ÓH, Hreggviðsson GÓ, Karlsson EN. 2017. Evaluation of the production of exopolysaccharides by two strains of the thermophilic bacterium Rhodothermus marinus. Carbohydr Polym. 156:1–8.
- Soy S, Nigam VK, Sharma SR. 2019. Cellulolytic, amylolytic and xylanolytic potential of thermophilic isolates of Surajkund hot spring. J Biosci. 44(5):1–12.
- Spanò A, Gugliandolo C, Lentini V, Maugeri TL, Anzelmo G, Poli A, Nicolaus B. 2013. A novel EPS-producing strain of Bacillus licheniformis isolated from a shallow vent off Panarea Island (Italy). Curr Microbiol. 67(1):21–29.
- Takai K, Nakamura K, Toki T, Tsunogai U, Miyazaki M, Miyazaki J, Hirayama H, Nakagawa S, Nunoura T, Horikoshi K. 2008. Cell proliferation at 122 C and isotopically heavy CH4 production by a hyperthermophilic methanogen under high-pressure cultivation. Proc Natl Acad Sci USA. 105(31):10949–10954.
- Wang J, Salem DR, Sani RK. 2019. Extremophilic exopolysaccharides: a review and new perspectives on engineering strategies and applications. Carbohydr Polym. 205:8–26.