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61.
Glucose induced translation of insulin in pancreatic beta cells is mediated by the 5'UTR of insulin mRNA. We determined the minimal sequence/structure in the 5'UTR of rat insulin gene1 for this regulation. We show that specific factors in the pancreatic islets bind to the 5'UTR of the insulin mRNA upon glucose stimulation. We identified a minimal 29-nucleotide element in the 5'UTR that is sufficient to form the complex, and confer glucose mediated translation activation. Conserved residues in the predicted stem loop region of the un-translated region (UTR) seem to be important for the complex formation and the translation regulation. 相似文献
62.
P Sivasubramanian P P Sood 《Cellular and molecular biology, including cyto-enzymology》2003,49(4):641-644
An antiserum against Diploptera allastostain 1 (Dip-AST1) was used to map the distribution of allatostain containing neurons in the optic lobes of the fly Saccrophaga bullata. Strongly immunoreacting neurons were found in two areas of the optic ganglia, namely, the medulla and the area between medulla and lobula. These cells were generally interneurons arborizing the base of the medulla. The positive reaction of specific populations of the optic lobe neurons against allatostain antiserum suggests some role for this neuropeptide in the visual physiology of the fly. 相似文献
63.
Kumari GN Ganesh MR Anitha R Sivasubramanian A 《Zeitschrift für Naturforschung. C, Journal of biosciences》2004,59(5-6):405-407
The microbial transformation of coumarin (1) and 6-methyl coumarin (2) using Colletotrichum capsici gave 2-(3'-hydroxypropyl) phenol (3) and 2-(3'-hydroxypropyl)-4-methyl phenol (4). The phytopathogenic fungi effectively reduced the 2H-pyran-2-one moiety of both parent coumarins to respective alcohols. 相似文献
64.
Chellapandian Balachandran Alagumalai Vishali Natarajan Arun Nagendran Kathirvelu Baskar Abeer Hashem Elsayed Fathi Abd_Allah 《Saudi Journal of Biological Sciences》2021,28(8):4263-4269
Marine microbes are potential source for novel metabolites. They are efficient in producing these metabolites utilizing agrowastes. Protease is one of the enzymes which find wide industrial applications. In the present study, protease producing bacteria was isolated from marine sediments and the organism was identified as Bacillus halodurans. The organism was subjected to protease production under solid state fermentation (SSF) using different agrowastes as substrates. Among the substrates used, wheat bran yielded maximum quantity of protease. The fermentation process was carried out under different cultural conditions to optimize the parameters influencing the enzyme production. The results of the stain removal studies by the enzyme revealed the increased efficiency of the microbial enzyme than the commercial detergent. 相似文献
65.
Baskar LK Srikanth TR Suba S Mody HC Desai PK Kaliraj P 《Microbiology and immunology》2004,48(7):519-525
There is an imperative need to develop a rapid antibody test that can be used for diagnosis of clinical cases in travelers and expatriates, primary surveillance in areas of unknown endemicity, detection of early infection in childhood and for monitoring chemotherapeutic programs. A rapid-format, simple and qualitative flow through immuno filtration test has been developed for the identification of total IgG antibodies to recombinant filarial antigen WbSXP-1. This test system employs colloidal gold-protein A reagent as the antibody capture reagent. The sensitivity and specificity of the test was evaluated in a total of 1,230 serum samples. The sensitivity of the test was found to be 90.8% with brugian (n = 70) and 91.4% with bancroftian (n = 140) microfilaraemic subjects. The test showed minimum reactivity (4/10) with Loa loa microfilaria (MF) positive sera and no reactivity (0/20) with Onchocerca MF positive sera. This rapid diagnosis is found to be non-reactive with individuals having other parasitic diseases including schistosomiasis (n = 10), soil-transmitted helminthiases (n = 34) and protozoan infections (n = 33) indicating the potential of this test as a prospective method of diagnosis for both brugian and bancroftian lymphatic filariasis. Stability kinetics was studied at different temperatures and different time periods. The rapid flow-through immuno filtration test is advantageous since it can be stored at room temperature, is user friendly and is particularly applicable in the field as an initial screening method, for epidemiological monitoring of filarial infections in bancroftian and brugian endemic regions of the world. 相似文献
66.
67.
Resham Lal Gurung Shi Ni Lim Aik Kia Khaw Jasmine Fen Fen Soon Kirthan Shenoy Safiyya Mohamed Ali Manikandan Jayapal Swaminathan Sethu Rajamanickam Baskar M. Prakash Hande 《PloS one》2010,5(8)
Background
A major concern of cancer chemotherapy is the side effects caused by the non-specific targeting of both normal and cancerous cells by therapeutic drugs. Much emphasis has been placed on discovering new compounds that target tumour cells more efficiently and selectively with minimal toxic effects on normal cells.Methodology/Principal Findings
The cytotoxic effect of thymoquinone, a component derived from the plant Nigella sativa, was tested on human glioblastoma and normal cells. Our findings demonstrated that glioblastoma cells were more sensitive to thymoquinone-induced antiproliferative effects. Thymoquinone induced DNA damage, cell cycle arrest and apoptosis in the glioblastoma cells. It was also observed that thymoquinone facilitated telomere attrition by inhibiting the activity of telomerase. In addition to these, we investigated the role of DNA-PKcs on thymoquinone mediated changes in telomere length. Telomeres in glioblastoma cells with DNA-PKcs were more sensitive to thymoquinone mediated effects as compared to those cells deficient in DNA-PKcs.Conclusions/Significance
Our results indicate that thymoquinone induces DNA damage, telomere attrition by inhibiting telomerase and cell death in glioblastoma cells. Telomere shortening was found to be dependent on the status of DNA-PKcs. Collectively, these data suggest that thymoquinone could be useful as a potential chemotherapeutic agent in the management for brain tumours. 相似文献68.
Ishfaq Ahmed Sheikh Amit Kumar Singh Nagendra Singh Mau Sinha S. Baskar Singh Asha Bhushan Punit Kaur Alagiri Srinivasan Sujata Sharma Tej P. Singh 《The Journal of biological chemistry》2009,284(22):14849-14856
The crystal structure of the complex of lactoperoxidase (LPO) with its
physiological substrate thiocyanate (SCN–) has been
determined at 2.4Å resolution. It revealed that the
SCN– ion is bound to LPO in the distal heme cavity. The
observed orientation of the SCN– ion shows that the sulfur
atom is closer to the heme iron than the nitrogen atom. The nitrogen atom of
SCN– forms a hydrogen bond with a water (Wat) molecule at
position 6′. This water molecule is stabilized by two hydrogen bonds
with Gln423 Nε2 and Phe422 oxygen. In
contrast, the placement of the SCN– ion in the structure of
myeloperoxidase (MPO) occurs with an opposite orientation, in which the
nitrogen atom is closer to the heme iron than the sulfur atom. The site
corresponding to the positions of Gln423, Phe422 oxygen,
and Wat6′ in LPO is occupied primarily by the side chain of
Phe407 in MPO due to an entirely different conformation of the loop
corresponding to the segment Arg418–Phe431 of LPO.
This arrangement in MPO does not favor a similar orientation of the
SCN– ion. The orientation of the catalytic product
OSCN– as reported in the structure of
LPO·OSCN– is similar to the orientation of
SCN– in the structure of LPO·SCN–.
Similarly, in the structure of
LPO·SCN–·CN–, in which
CN– binds at Wat1, the position and orientation of
the SCN– ion are also identical to that observed in the
structure of LPO·SCN.Lactoperoxidase
(LPO4; EC 1.11.1.7) is
a Fe3+ heme enzyme that belongs to the mammalian peroxidase family
(1). The family of mammalian
peroxidases comprises lactoperoxidase
(2), eosinophil peroxidase
(3), thyroid peroxidase
(4), and myeloperoxidase (MPO)
(5). LPO, eosinophil
peroxidase, and MPO are responsible for antimicrobial function and innate
immune responses
(6–8),
whereas thyroid peroxidase plays a key role in thyroid hormone biosynthesis
(9). These peroxidases are
different from plant and fungal peroxidases because unlike plant and fungal
enzymes, the prosthetic heme group in mammalian peroxidases is covalently
linked to the protein (10).
There are also several striking structural and functional differences among
the mammalian peroxidases
(11). The heme group in MPO is
attached to the protein via three covalent linkages
(12), whereas LPO
(12,
13), eosinophil peroxidase
(12), and thyroid peroxidase
(12) contain only two ester
linkages. These covalent and various non-covalent linkages contribute
differentially to the high stability of the heme core as well as for the
peculiar values of their redox potentials
(2,
14). Furthermore, MPO consists
of two disulfide-linked protein chains, whereas LPO, eosinophil peroxidase,
and thyroid peroxidase are single chain proteins, although their chain lengths
differ greatly. In addition, their sequences contain several critical amino
acid differences that may also contribute to the variations in the
stereochemical environments of the substrate-binding sites. As a consequence
of these differences, the mammalian enzymes oxidize various inorganic ions
such as SCN–, Br–, Cl–, and
I– with differing specificities and potencies. Biochemical
studies have shown that LPO catalyzes preferentially the conversion of
SCN– to OSCN–
(15,
16), whereas MPO uses halides
(17,
18) with a preference for
chloride ion as the substrate. The preferences of eosinophil peroxidase and
thyroid peroxidase are bromide and iodide, respectively. However, the
stereochemical basis of the reported preferences for the substrates by
mammalian heme peroxidases is still unclear. So far, the structures of only
two mammalian enzymes, MPO and LPO, have been determined
(12,
13). It is of considerable
importance to identify the structural parameters that are responsible for the
subtle specificities. In the present work, we have attempted to address this
question through the new crystal structures of LPO complexes with
SCN– ions using goat, bovine, and buffalo lactoperoxidases.
Because the overall structures of complexes of SCN– with LPO
from all three species were found to be identical, the structure of the
complex of buffalo LPO with SCN– and the ternary complex with
SCN– and CN– will be discussed here, and
buffalo LPO will be termed hereafter as LPO. To highlight the factors
pertaining to binding specificity of SCN–, a comparison of
the structures of LPO·SCN– and
MPO·SCN– has also been made, revealing many valuable
differences pertaining to the observed orientations of the common substrate,
SCN– ion, when bound at the substrate-binding site in the
distal heme cavity of the two structures. The structures of
LPO·SCN– and MPO·SCN– clearly
show that the bound SCN– ions are present in the distal heme
cavity of two enzymes with opposite orientations. In the structure of
LPO·SCN–, the sulfur atom is closer to the heme iron
than the nitrogen atom, whereas in that of MPO·SCN–,
the nitrogen atom is closer to the heme iron than the sulfur atom. As a result
of this, the interactions of the SCN– ion in the distal site
of two proteins differ drastically. Gln423, a conserved water (Wat)
molecule at position 6′, and a well aligned carbonyl oxygen of
Phe422 in the proximity of the substrate-binding site in LPO
against a protruding Phe407 in MPO seem to play the key roles in
inducing the observed orientations of SCN– ions in LPO and
MPO. The structure of LPO·SCN– has also been compared
with the structure of its ternary complex with SCN– and
CN– ions. 相似文献
69.
Baskar R Chhabra P Mascarenhas P Nanjundiah V 《The International journal of developmental biology》2000,44(5):491-498
Spatial gradients of sequestered and free cellular calcium (Ca2+) exist in the slug of Dictyostelium discoideum (Maeda and Maeda, 1973; Tirlapur et al., 1991; Azhar et al., 1995; Cubitt et al., 1995). When we vary intracellular Ca2+ with the help of calcium buffers and the ionophore Br-A23187, there are striking effects on slug morphology, patterning and cell differentiation. In the presence of a calcium ionophore, high external Ca2+ levels lead to an increase of intracellular sequestered and free Ca2+, the formation of long slugs, a decrease in the fraction of genetically defined prespore cells and 'stalky' fruiting bodies. Conversely, a lowering of external Ca2+ levels results in a decrease of intracellular Ca2+, the formation of short slugs, an increase in the prespore fraction and 'spory' fruiting bodies. We infer that Ca2+ plays a significant morphogenetic role in D. discoideum development, by selectively promoting the prestalk pathway relative to the prespore pathway. 相似文献
70.