Parab Pankaj D, Khandeparker Rakhee D
Biological Oceanography Division, CSIR-National Institute of Oceanography (CSIR-NIO), Dona Paula, Goa, India.
Government College of Arts, Science and Commerce, Marcela, Goa, India.
Prep Biochem Biotechnol. 2025;55(7):835-845. doi: 10.1080/10826068.2025.2457545. Epub 2025 Feb 1.
Microbial xylanases are xylan hydrolyzing enzymes which has congregated attention due to their immense potential in many industries. The current study is focused on xylanase from bacterial isolate identified as sp. NIORKP76 on an inexpensive agro-industrial waste (wheat bran) under solid-state fermentation. The isolate showed maximum xylanase production in growth medium supplemented with phosphate, NaCl and NHCl at 64 mM, 15 mg/mL and 0.3 mg/mL respectively which was maintained at 1:3 substrate to moisture ratio (w/v). Using optimized conditions, the maximum xylanase production in wheat bran was achieved in 72 h at room temperature 28 ± 2 °C. Xylanase exhibited pH optimum of 8.0 and retained 92% of its residual activity after 24 h incubation at pH 8. Xylanase displayed optimum activity at 60 °C, whereas it remained unhindered even after 12 h of incubation period at 30 and 40 °C. The xylanase isolated in this study was purified to homogeneity with a molecular weight of approximately 28 kDa. Xylanase from sp. NIORKP76 was potentially converting agro-residues into biofuel feedstock. Pretreated wheat bran produced the highest yield fermentable sugars (141 mg/g), after 8 h incubation with 5 U/g xylanase and at 40 °C.
微生物木聚糖酶是一类能够水解木聚糖的酶,因其在众多行业中具有巨大潜力而备受关注。当前的研究聚焦于从一株被鉴定为sp. NIORKP76的细菌分离物中提取的木聚糖酶,该酶是在固态发酵条件下利用一种廉价的农业工业废弃物(麦麸)生产的。该分离物在分别添加了64 mM磷酸盐、15 mg/mL氯化钠和0.3 mg/mL氯化铵的生长培养基中表现出最高的木聚糖酶产量,底物与水分的比例保持在1:3(w/v)。在优化条件下,于28 ± 2°C的室温下,72小时内在麦麸中实现了最大木聚糖酶产量。木聚糖酶的最适pH值为8.0,在pH 8条件下孵育24小时后仍保留其92%的残余活性。木聚糖酶在60°C时表现出最佳活性,而在30°C和40°C孵育12小时后其活性仍未受影响。本研究中分离的木聚糖酶被纯化至同质,分子量约为28 kDa。来自sp. NIORKP76的木聚糖酶有可能将农业残留物转化为生物燃料原料。在40°C下,用5 U/g木聚糖酶孵育8小时后,预处理的麦麸产生了最高产量的可发酵糖(141 mg/g)。
