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Kishor P. Dhake,Kushal D. Bhatte,Yogesh S. Wagh,Rekha S. Singhal,Bhalchandra M. Bhanage 한국생물공학회 2012 Biotechnology and Bioprocess Engineering Vol.17 No.5
Commercially available steapsin lipase was immobilized on macroporous polymer beads (IB-350) and further investigated for biodiesel production under solvent free conditions. The fatty acid methyl ester (biodiesel)synthesis was carried out by the methanolysis of fresh and used cooking sunflower oil. The enzymatic reaction for biodiesel synthesis was optimized with various reaction parameters and the obtained reaction conditions were 1: 6molar ratio (oil: methanol), 50 mg biocatalyst and 20% water content at 45oC for 48 h under solvent free conditions. It was observed that 94% of biodiesel was produced under the optimized reaction conditions. The four step addition of methanol at the interval of 12 h was found to be more effective. Moreover the biocatalyst was effectively reused for four consecutive recycles and was appreciably stable for 90 days. The results obtained highlight potential of immobilized steapsin lipase for biodiesel production.
Hydroxyapatite from Cuttlefish Bone: Isolation, Characterizations, and Applications
Jayachandran Venkatesan,Rekha P. D.,Sukumaran Anil,Ira Bhatnagar,Sudha P. N.,Chutiwan Dechsakulwatana,김세권,심민석 한국생물공학회 2018 Biotechnology and Bioprocess Engineering Vol.23 No.4
Hydroxyapatite (HA), a bioceramic, is a widely utilized material for bone tissue repair and regeneration because of its excellent properties such as biocompatibility, exceptional mechanical strength, and osteoconductivity. HA can be obtained by both synthetic and natural means. Animal bones are often considered a promising natural resource for the preparation of pure HA for biological and biomedical applications. Cuttlefish bone, also called as cuttlebone, mainly consists of calcium carbonate, and pure HA can be produced by adding phosphoric acid or ammonium hydrogen phosphate to it. Recently, cuttlefish bone-derived HA has shown promising results in terms of bone tissue repair and regeneration. The synthesized cuttlefish bone-derived has shown excellent biocompatibility, cell proliferation, increased alkaline phosphate activity, and efficient biomineralization ability with mesenchymal stem cells and osteoblastic cells. To further improve the biological properties of cuttlefish bone-derived HA, bioglass, polycaprolactone, and polyvinyl alcohol were added to it, which gave better results in terms of cell proliferation and osteogenic differentiation. Cuttlefish bone-derived HA with polymeric substances provides excellent bone formation under in vivo conditions. The studies indicate that cuttlefish bone-derived HA, along with polymeric and, protein materials, will be promising biomaterials in the field of bone tissue regeneration.
Rao, A. Ananda,Chaudhury, Rekha,Kumar, Suseel,Velu, D.,Saraswat, R.P.,Kamble, C.K. Korean Society of Sericultural Science 2007 International Journal of Industrial Entomology Vol.15 No.1
A simple and reliable cryo technique using desiccation and slow freezing of winter dormant buds was employed for 238 core collection of mulberry germplasm collected from diverse geographical regions and maintained under tropical conditions in the ex situ field gene bank to develop long-term biodiversity conservation for ensuring sustainable utilization of these valuable resources. Desiccation and freezing tolerance of bud grafts and excised shoot apices in the axillary buds of different Morus species under in vivo and in vitro condition indicated species-specific variation and most of the wild Morus species were found sensitive. In vitro regeneration and cryopreservation($-196^{\circ}C$) protocols using differentiated bud meristem like axillary winter dormant buds were worked out for a wide range of Morus species, land races, wild and cultivated varieties. Successful cryopreservation of mulberry winter dormant buds of different accessions belonging to M. indica, M. alba, M. latifolia, M. cathayana, M. laevigata, M. nigra, M. australis, M. bombycis, M. sinensis, M multicaulis and M. rotundiloba was achieved. Among wild species Morus tiliaefolia, and M. serrata showed moderate recovery after cryopreservation. Survival rates did not alter after three years of cryopreservation of different Morus species. ISSR markers were used to ascertain the genetic stability of cryopreserved mulberry, which showed no difference detected among the plantlets regenerated from frozen apices in comparison to the non-frozen material.