Publications by authors named "Bhoopal Bhuvanachandra"

Introduction: Microtubule (MT) stability is crucial for proper neuronal function. Understanding MT dysregulation is critical for connecting amyloid beta (Aβ) and tau-based degenerative events and early changes in presymptomatic Alzheimer's disease (AD). Herein we present positron emission tomography (PET) imaging properties of our MT-PET radiotracer, [C]MPC-6827, in multiple established AD mouse models.

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The microtubule (MT) instability observed in Alzheimer's disease (AD) is commonly attributed to hyperphosphorylation of the MT-associated protein, tau. PET imaging offers an opportunity to gain critical information about MT changes with the onset and development of AD and related dementia. We developed the first brain-penetrant MT PET ligand, [C]MPC-6827, and evaluated its imaging utility in vervet monkeys.

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G-protein-coupled receptor 119 (GPR119) has emerged as a promising target for treating type 2 diabetes mellitus. Activating GPR119 improves glucose homeostasis, while suppressing appetite and weight gain. Measuring GPR119 levels could significantly advance GPR119-based drug development strategies including target engagement, occupancy, and distribution studies.

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Impairment and/or destabilization of neuronal microtubules (MTs) resulting from hyper-phosphorylation of the tau proteins is implicated in many pathologies, including Alzheimer's disease (AD), Parkinson's disease and other neurological disorders. Increasing scientific evidence indicates that MT-stabilizing agents protect against the deleterious effects of neurodegeneration in treating AD. To quantify these protective benefits, we developed the first brain-penetrant PET radiopharmaceutical, [C]MPC-6827, for quantification of MTs in rodent and nonhuman primate models of AD.

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Over production of reactive oxygen species (ROS) caused by altered redox regulation of signaling pathways is common in many types of cancers. While PET imaging is recognized as the standard tool for cancer imaging, there are no clinically-approved PET radiotracers for ROS-imaging in cancer diagnosis and treatment. An ascorbate-based radio ligand promises to meet this urgent need.

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Biochemical and biophysical studies revealed that chitinase O from Chitiniphilus shinanonensis (CsChiO) exhibits considerable thermotolerance, possibly due to the formation of a stable structural conformation. CsChiO is an exochitinase with a temperature optimum of 70 °C. The secondary structures of CsChiO and its catalytic domain (Cat-CsChiO) are only marginally affected upon heating up to 90 °C, as revealed by circular dichroism (CD) spectroscopy.

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Long-chain chitooligosaccharides (COS) with degree of polymerization (DP) more than 4 are known to have potential biological activities. A hyper-transglycosylating mutant of an endo-chitinase from Serratia proteamaculans (SpChiD-Y28A) was used to synthesize COS with DP6 and DP7 using COS DP5 as substrate. Purified COS with DP5-7 were tested to elicit the defense response in rice seedlings.

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The midgut of lepidopteran larvae is a multifunctional tissue that performs roles in digestion, absorption, immunity, transmission of pathogens and interaction with ingested various molecules. The proteins localized at the inner apical brush border membrane are primarily digestive proteases, but some of them, like aminopeptidase N, alkaline phosphatase, cadherins, ABC transporter C2, etc., interact with Crystal (Cry) toxins produced by ().

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Chitooligosaccharides (COS) generated from either chitin (chitin oligosaccharides) or chitosan (chitosan oligosaccharides) have a wide range of applications in agriculture, medicine, and other fields. Here, we report the characterization of a chitosanase from (Csn) and the importance of a tryptophan (Trp), W204, for Csn activity. Csn hydrolyzed the chitosan polymer by an endo mode.

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Transglycosylation (TG) by Enterobacter cloacae subsp. cloacae chitinase 2 (EcChi2) has been deciphered by site-directed mutagenesis. EcChi2 originally displayed feeble TG with chitin oligomer with a degree of polymerization (DP4), for a short duration.

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Enzymatic conversion of α-chitin to high-value chitooligosaccharides (COS) was up to 7.2 % by a slow-acting endo-chitinase (uni-modular) after KOH or KOH-urea pretreatment. Here, we report a better source for efficient conversion of α-chitin, with KOH/KOH-urea (20K2 or 20KU2) pretreatment, by a multi-modular chitinase (CsChiG) from Chitiniphilus shinanonensis.

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Chitin is the second most abundant and renewable polysaccharide, next to cellulose. Hydrolysis of abundant and highly crystalline α-chitin, pretreated with KOH and KOH-urea aqueous solutions, by a single modular endo-chitinase from Enterobacter cloacae subsp. cloacae (EcChi1) was investigated.

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Chitin, mostly extracted from shrimp waste, is the second most abundant biopolysaccharide, next only to cellulose. Enzymatic conversion of chitin into useful bioactive molecules such as chitooligosaccharides (COS) has potential biotechnological applications. The current study describes the characterization of a single modular GH18 chitinase from Chitiniphilus shinanonensis (CsChiL).

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Chitin and its derivatives are used for a variety of applications. Flavobacterium johnsoniae UW101 is an aerobic Gram-negative bacterium. Genome analysis of F.

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The recombinant C-terminal domain of chitinase C of Chitinophaga pinensis (CpChiC-GH18) exhibits the highest activity at pH 6.0 and 35 °C, with a K of 76.13 (mg ml), a k of 10.

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Transglycosylation (TG) by family 18 chitinases is of special interest due to the many biological applications of long-chain chitooligosaccharides (CHOS). In the current study, the TG activity of chitinase A from Stenotrophomonas maltophilia (StmChiA) was improved through structure-guided mutations within and around the active site. Three independent mutants were created, targeting Trp residues from the -3 and -1 subsites and the central catalytic Asp from the DxDxE motif of StmChiA.

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Humans have exploited natural resources for a variety of applications. Chitin and its derivative chitin oligosaccharides (CHOS) have potential biomedical and agricultural applications. Availability of CHOS with the desired length has been a major limitation in the optimum use of such natural resources.

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We report here the role and mechanism of specificity of a family 32 carbohydrate binding module (CBM32) of a glycoside hydrolase family 8 chitosanase from Paenibacillus elgii (PeCsn). Both the activity and mode of action of PeCsn toward soluble chitosan polymers were not different with/without the CBM32 domain of P. elgii (PeCBM32).

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