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121.
122.
Chitosan microspheres as drug delivery system have attained importance and attracted the attention of researchers in last
few years. This study was aimed toward the elucidation of the effect of viscosity of external oil phase on the properties
of microspheres prepared by emulsification method. Chitosan microspheres were prepared utilizing oil phase of different viscosity
viz. castor oil, heavy liquid paraffin, light liquid paraffin and mixture of light paraffin, and petroleum ether (1:1 v/v ratio). Microspheres prepared in highly viscous castor oil exhibited an average size of 11.52 ± 0.57 μm with a percentage
drug entrapment of 43.12 ± 2.14. On the other hand, very small microspheres of 3.15 ± 0.04 μm and 68.87 ± 1.03% drug entrapment
were obtained when mixture of liquid paraffin and petroleum ether was utilized as oil phase. Effect of viscosity on percent
mucoadhesion, percent drug entrapment, zeta potential, percent process yield, etc. of microspheres has been observed. In vitro drug release in phosphate buffer pH 7.4 was determined for different batch of microspheres. The results revealed a difference
in the drug release pattern of the different microspheres prepared as a function of viscosity of different oil phase. Use
of low viscose oil resulted in the formulation of spherical and small size microspheres. This work was a part of our ongoing
thrust and project to develop microparticulate drug delivery system. 相似文献
123.
Gupta A Ray S Kapoor S Khare SK 《Journal of molecular microbiology and biotechnology》2008,15(4):234-243
We have previously isolated a solvent-stable protease from a novel solvent-tolerant strain of Pseudomonas aeruginosa (PseA). Here we report cloning and characterization of the gene coding for this solvent-tolerant protease. A homology search of the N-terminal amino acid sequence of the purified PseA protease revealed an exact match to a P. aeruginosa PST-01 protease gene, lasB. The c-DNA sequence of the PST-01 protease was used to design primers for the amplification of a 1,494-bp open reading frame encoding a 53.6-kDa, 498-amino-acid PseA LasB polypeptide. The deduced PseA LasB protein contained a 23-residue signal peptide (2.6 kDa) followed by a propeptide of 174 residues and a 33-kDa mature product of 301 residues. A phylogenetic analysis placed PseA lasB closest to the known zinc metalloproteases from P. aeruginosa. This gene was also found to contain a conserved HEXXH zinc-binding motif, characteristic of all zinc metallopeptidases. The 3D structure analysis of PseA protease revealed the presence of 7 alpha-helices (36% of the sequence). The molecule was found to have two disulfide bonds (between Cys-227 and Cys-255 and between Cys-467 and Cys-494) and had a number of hydrophobic clusters at the protein surface. These hydrophobic patches (21% of the sequence) and disulfide bonds may possibly be responsible for the solvent-stable nature of the enzyme. 相似文献
124.
125.
Oxidation of isoeugenol by Nocardia iowensis 总被引:1,自引:0,他引:1
Ramya Seshadri Andrew S. Lamm Arshdeep Khare John P.N. Rosazza 《Enzyme and microbial technology》2008,43(7):486-494
Isoeugenol is a starting material for both the synthetic and biotechnological production of vanillin and vanillic acid. Nocardia iowensis DSM 45197 (formerly Nocardia species NRRL 5646) resting cells catalyze the conversion of isoeugenol to vanillic acid, vanillin, vanillyl alcohol and guaiacol. The present study used a variety of chemical, microbial and enzymatic approaches to probe the pathways used by N. iowensis in the oxidation of isoeugenol to these products. Of three possible pathways considered, initial side-chain olefin epoxidation, epoxide hydrolysis to a vicinal diol, and diol cleavage to vanillin and subsequently further oxidation to vanillic acid appears as the most likely route. Isoeugenol was not oxidized to ferulic acid, a well-known microbial transformation precursor for vanillin and vanillic acid. 18O-Labeled oxygen (one atom) and water (two oxygen atoms) were incorporated into vanillic acid during the whole-cell biotransformation reaction with isoeugenol indicating the likely involvement of oxygenase and hydrolase systems in the bioconversion reaction. Vanillin was converted to singly labeled vanillic acid in the presence of H218O suggesting the presence of an aldehyde oxidase. Cell extracts achieved the conversion of isoeugenol to vanillic acid and vanillin without cofactors. Partial fractionation of two enzyme activities supported the presence of isoeugenol monooxygenase and vanillin oxidase activities in N. iowensis. 相似文献
126.
127.
The 3′→5′ exonuclease activity intrinsic to several DNA polymerases plays a primary role in genetic stability; it acts as a first line of defense in correcting DNA polymerase errors. A mismatched basepair at the primer terminus is the preferred substrate for the exonuclease activity over a correct basepair. The efficiency of the exonuclease as a proofreading activity for mispairs containing a DNA lesion varies, however, being dependent upon both the DNA polymerase/exonuclease and the type of DNA lesion. The exonuclease activities intrinsic to the T4 polymerase (family B) and DNA polymerase γ (family A) proofread DNA mispairs opposite endogenous DNA lesions, including alkylation, oxidation, and abasic adducts. However, the exonuclease of the Klenow polymerase cannot discriminate between correct and incorrect bases opposite alkylation and oxidative lesions. DNA damage alters the dynamics of the intramolecular partitioning of DNA substrates between the 3′→5′ exonuclease and polymerase activities. Enzymatic idling at lesions occurs when an exonuclease activity efficiently removes the same base that is preferentially incorporated by the DNA polymerase activity. Thus, the exonuclease activity can also act as a kinetic barrier to translesion synthesis (TLS) by preventing the stable incorporation of bases opposite DNA lesions. Understanding the downstream consequences of exonuclease activity at DNA lesions is necessary for elucidating the mechanisms of translesion synthesis and damage-induced cytotoxicity. 相似文献
128.
Judite Costa Chuanhai Fu V. Mohini Khare Phong T. Tran 《Molecular biology of the cell》2014,25(24):3900-3908
Proper chromosome segregation is of paramount importance for proper genetic inheritance. Defects in chromosome segregation can lead to aneuploidy, which is a hallmark of cancer cells. Eukaryotic chromosome segregation is accomplished by the bipolar spindle. Additional mechanisms, such as the spindle assembly checkpoint and centromere positioning, further help to ensure complete segregation fidelity. Here we present the fission yeast csi2+. csi2p localizes to the spindle poles, where it regulates mitotic microtubule dynamics, bipolar spindle formation, and subsequent chromosome segregation. csi2 deletion (csi2Δ) results in abnormally long mitotic microtubules, high rate of transient monopolar spindles, and subsequent high rate of chromosome segregation defects. Because csi2Δ has multiple phenotypes, it enables estimates of the relative contribution of the different mechanisms to the overall chromosome segregation process. Centromere positioning, microtubule dynamics, and bipolar spindle formation can all contribute to chromosome segregation. However, the major determinant of chromosome segregation defects in fission yeast may be microtubule dynamic defects. 相似文献
129.
Expansion of polyglutamine (polyQ) tracts in proteins results in protein aggregation and is associated with cell death in at least nine neurodegenerative diseases. Disease age of onset is correlated with the polyQ insert length above a critical value of 35-40 glutamines. The aggregation kinetics of isolated polyQ peptides in vitro also shows a similar critical-length dependence. While recent experimental work has provided considerable insights into polyQ aggregation, the molecular mechanism of aggregation is not well understood. Here, using computer simulations of isolated polyQ peptides, we show that a mechanism of aggregation is the conformational transition in a single polyQ peptide chain from random coil to a parallel beta-helix. This transition occurs selectively in peptides longer than 37 glutamines. In the beta-helices observed in simulations, all residues adopt beta-strand backbone dihedral angles, and the polypeptide chain coils around a central helical axis with 18.5 +/- 2 residues per turn. We also find that mutant polyQ peptides with proline-glycine inserts show formation of antiparallel beta-hairpins in their ground state, in agreement with experiments. The lower stability of mutant beta-helices explains their lower aggregation rates compared to wild type. Our results provide a molecular mechanism for polyQ-mediated aggregation. 相似文献
130.
Thapak Pavan Khare Pragyanshu Bishnoi Mahendra Sharma Shyam Sunder 《Cellular and molecular neurobiology》2022,42(4):1211-1223
Cellular and Molecular Neurobiology - β-Amyloid (Aβ) peptide is a characteristic feature of Alzheimer’s disease (AD) and accumulation of Aβ is associated with loss of synaptic... 相似文献