1. Pachhunga University College IR

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2018Fishes of the genus Hemimyzon Regan, 1911, family Balitoridae, are found in the fast-flowing rivers of Southeast and East Asia, particularly in China, Taiwan, Thailand, Laos and Vietnam. The genus is very similar to the genus Balitora and can be separated mainly by having 3-7 simple pelvic rays and a more or less widened body, with pelvic-fin bases from widely separated to fused posteriorly (Kottelat, 2012). There are 16 valid species in the genus viz. H. confluens Kottelat, 2000, H. ecdyonuroides Freyhof & Herder, 2002, H. elongatus (Chen & Li, in Li & Chen, 1985), H. formosanus (Boulenger, 1894), H. khonensis Kottelat, 2000, H. macropterus Zheng, in Zheng & Huang, 1982, H. megalopseos Li & Chen, 1985, H. nanensis Doi & Kottelat, 1998, H. nujiangensis (Zhang & Zheng, in Zheng & Zhang, 1983), H. papilio Kottelat, 2000, H. pengi (Huang, in Zheng, Chen & Huang, 1982), H. pumilicorpora Zheng & Zhang, 1987, H. sheni Chen & Fang, 2009, H. taitungensis Tzeng & Shen, 1982, H. tchangi (Zheng, in Zheng, Chen & Huang, 1982) and H. yaotanensis (Fang, 1931) (see Kottelat, 2012). A survey conducted along the Kaladan River in Mizoram, northeastern India, resulted in the collection of a Hemimyzon species that markedly differs from all other congeners. It is described here as H. indicus.Lalramliana
2018Silk-based biomaterials have gained significant importance making them a promising choice for the future of medical technology due to their versatility and biocompatibility. They can be fabricated and tailored through various processing methods such as electrospinning, freeze-drying, and 3D printing, to achieve specific properties and structures namely sponges, hydrogels, films, and scaffolds that can be utilized for different biomedical applications. Biocompatibility, a unique property of silk-based biomaterials, has been demonstrated through both in vivo and in vitro studies and to date many studies have reported the successful use of these silk-based biomaterials in different fields of medicine. In this review, we have elaborately discussed different types of silk, their structural composition, and biophysical properties. Also, the current review focuses on highlighting various biomedical applications of engineered and fabricated silk-based biomaterials which aid in the treatment of certain infections and diseases related to skin, eyes, teeth, bone, heart, nerves, and liver. Furthermore, we have consolidated the advancements of silk-based biomaterials in the different fields of biotechnology such as sensors, food coating and packaging, textiles, drug delivery, and cosmetics. However, the research in this field continues to expand and more significant observations must be generated with feasible results for their reliable use in different biomedical applicationsBabu, Punuri Jayasekhar
2018Piper betle-mediated green synthesis of biocompatible gold nanoparticlesBabu, Punuri Jayasekhar
2019-08-16Cabdio crassus, a new species of cyprinid fish (Teleostei: Cyprinidae) from the Kaladan River of Mizoram, IndiaLalramliana
2018DNA barcoding revealed a new species of Neolissochilus Rainboth, 1985 from the Kaladan River of Mizoram, North East IndiaLalramliana
2024-03Applications of silk-based biomaterials in biomedicine and biotechnologyBabu, Punuri Jayasekhar
2018Hemimyzon indicus, a new species of balitorid fish from the Kaladan basin, Mizoram, northeast India (Teleostei: Balitoridae)Lalramliana
2018-07-27Integrative taxonomy reveals a new species of snakehead fish, Channa stiktos (Teleostei: Channidae), from Mizoram, North Eastern IndiaLalramliana

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