Thermostability of β‐xylosidase from Aspergillus sydowii MG49

Ghosh Mousumi; Nanda Geeta

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Thermostability of β‐xylosidase from Aspergillus sydowii MG49

机译：sydowii MG49的β-木糖苷酶的热稳定性

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>Heating of Aspergillus β-xylosidase at 85°C ± 1°C and pH 5.5–6.0 (optimum for activity), causes irreversible, covalent thermoinactivation of the enzyme, involving oxidation of the thiol groups that are required for catalysis. Exogenous addition of cysteine, DTT, GSH and mercaptoethanol stabilizes the enzyme by extending its half-life. A similar effect is also exhibited by bivalent cations like Mg2+, Mn2+, Co2+, Ca2+and Zn2+ while, on the other hand Cu2+ accelerates thermoinactivation. Chemical modification of crude β-xylosidase with cross-linking agents like glutaraldehyde or covalent immobilization to a nonspecific protein like gelatin and BSA also enhances enzyme thermostability. These results suggest that addition of thiols and bivalent metal ions to a crude β-xylosidase preparation or immobilization/chemical modification enhances its thermal stability, thus preventing loss of catalytic activity at elevated temperatures.

机译：>曲霉β-木糖苷酶在85°C±1°C和pH 5.5-6.0（最佳活性）下加热，导致该酶不可逆的共价热失活，涉及巯基的氧化催化所需的。外源添加半胱氨酸，DTT，GSH和巯基乙醇可通过延长酶的半衰期来稳定酶。 Mg 2 + ，Mn 2 + ，Co 2 + ，Ca 2+ < / sup>和Zn 2 + ，而另一方面，Cu 2 + 加速热灭活。用交联剂（如戊二醛）对粗β-木糖苷酶进行化学修饰，或将其共价固定在非特异性蛋白（如明胶和BSA）上，也可以提高酶的热稳定性。这些结果表明，向粗制β-木糖苷酶制剂中添加硫醇和二价金属离子或固定化/化学修饰可增强其热稳定性，从而防止在高温下失去催化活性。

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《FEBS Letters》 |1993年第3期|共页
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Ghosh Mousumi; Nanda Geeta;
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1. Commentary on: ‘Thermostability of β‐xylosidase from Aspergillus sydowii MG49’ by M. Ghosh and G. Nanda, FEBS Letters 330, 275–278 (1993) [J] . Ananthapadmanaban D. FEBS Letters . 1996,第3期

机译：M. Ghosh和G. Nanda的评论：“来自米曲霉MG49的β-木糖苷酶的热稳定性”，FEBS Letters 330，275–278（1993）
2. A rejoinder to the commentary on ‘Thermostability of B‐xylosidase from Aspergillus sydowii MG49’ by M. Ghosh and G. Nanda, FEBS Letters 330 (1993) 275–278 by D. Ananthapadmanavan (Institute of Microbial Technology, Chandigarh, India) [J] . Nandi P. FEBS Letters . 1996,第1期

机译：通过D. AnanthaDAmanavan（Microbiager学院，印度微生物技术研究所），FEBS BoShow和G. Nanda，Febs Leader 330（1993）275-278（Microbigare研究所）的评注评论对烟草曲霉和曲霉酶的热稳定性的评注。
3. Identification of thermostable beta-xylosidase activities produced by Aspergillus brasiliensis and Aspergillus niger [J] . Pedersen M, Lauritzen HK, Frisvad JC, Biotechnology Letters . 2007,第5期

机译：鉴定巴西黑曲霉和黑曲霉产生的热稳定β-木糖苷酶活性
4. Heterologous Expression of Aspergillus niger β-D-Xylosidase (XlnD): Characterization on Lignocellulosic Substrates [C] . Michael J. Selig, Eric P. Knoshaug, Stephen R. Decker, Symposium on Biotechnology for Fuels and Chemicals . 2008

机译：黑曲霉β-D-木糖苷酶（XlnD）的异源表达：木质纤维素底物上的表征。
5. Breeding of better beta-D-xylosidase. [D] . Zuo, Peijun. 2004

机译：更好的β-D-木糖苷酶的选育。
6. Purification and Some Properties of a Xylanase from Aspergillus sydowii MG49 [O] . M. Ghosh, G. Nanda 1997

机译：sydowii MG49的木聚糖酶的纯化及部分性质
7. A rejoinder to the commentary on ‘Thermostability of B-xylosidase from Aspergillus sydowii MG49’ by M. Ghosh and G. Nanda, FEBS Letters 330 (1993) 275–278 by D. Ananthapadmanavan (Institute of Microbial Technology, Chandigarh, India) [O] . Nandi P. 1996

机译：M. Ghosh和G. Nanda撰写的关于“来自米曲霉MG49的B-木糖苷酶的热稳定性”评论，D。Ananthapadmanavan撰写的FEBS Letters 330（1993）275-278（印度昌迪加尔微生物技术研究所）的评论

Thermostability of β‐xylosidase from Aspergillus sydowii MG49

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