DNA-dependent transcription of adenovirus genes in a soluble whole-cell extract.

To evaluate the effects of Calcium carbide (CaC2) in biological system, an in vivo study was carried out on Long Evans rats. CaC2 was administered orally once daily for one month with specific concentrations. Group- I was considered as the control group (without CaC2), Group - II, III, IV and V were the sample groups treated with CaC2 having concentration of 1g/kg, 2g/kg, 5g/kg and 10g/kg body weight respectively. The experiment was conducted to detect any cellular and molecular level changes caused by CaC2. The histopathology and isozyme assay were performed to analyze the changes in the activities of the genes affected by the free radicals released from CaC2. The molecular analysis included different isozymes namely esterase and acid phosphatase. Polyacrylamide electrophoresis of whole cell extract of control subjects and CaC2 administered rats were performed; subsequently the gels were treated with the substrates for acid phosphatase and esterase respectively. No difference was observed in the whole cell extract band pattern between the control subject and the CaC2 administered rats, which grossly indicates that the CaC2 has no effect on the expression pattern of isozymes (acid phosphatase and esterase). Histopathological analysis of liver, heart, spleen, kidney and lungs were performed to observe any change due to the administration of CaC2. Remarkable changes were observed during the histopathological study of lungs and kidney only. The histopathological analysis of kidney showed the thickening of the lining of collecting tubules with changes in cell structure while lungs were found to be increased moderately in weight, with focal areas of consolidation that was found red-brown to red. Key words: Calcium carbide; Histopathological study; Isozymes Dhaka Univ. J. Pharm. Sci. 6(2): 93-98, 2007 (December)

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Visualizing the splicing of single pre-mRNA molecules in whole cell extract

RNA ◽

10.1261/rna.794808 ◽

2007 ◽

Vol 14 (1) ◽

pp. 170-179 ◽

Cited By ~ 68

Author(s):

D. J. Crawford ◽

A. A. Hoskins ◽

L. J. Friedman ◽

J. Gelles ◽

M. J. Moore

Keyword(s):

Cell Extract ◽

Whole Cell ◽

Whole Cell Extract

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V(D)J Recombination: Modulation of RAG1 and RAG2 Cleavage Activity on 12/23 Substrates by Whole Cell Extract and DNA-bending Proteins

Journal of Experimental Medicine ◽

10.1084/jem.185.11.2025 ◽

1997 ◽

Vol 185 (11) ◽

pp. 2025-2032 ◽

Cited By ~ 100

Author(s):

Dennis J. Sawchuk ◽

Frances Weis-Garcia ◽

Sohail Malik ◽

Eva Besmer ◽

Michael Bustin ◽

...

Keyword(s):

Dna Cleavage ◽

Gene Rearrangement ◽

Receptor Gene ◽

Cell Extract ◽

Base Pairs ◽

Whole Cell ◽

Recombination Activating Genes ◽

Cleavage Activity ◽

Recombination Signal Sequences ◽

Whole Cell Extract

Antigen receptor gene rearrangement is directed by DNA motifs consisting of a conserved heptamer and nonamer separated by a nonconserved spacer of either 12 or 23 base pairs (12 or 23 recombination signal sequences [RSS]). V(D)J recombination requires that the rearranging DNA segments be flanked by RSSs of different spacer lengths, a phenomenon known as the 12/23 rule. Recent studies have shown that this restriction operates at the level of DNA cleavage, which is mediated by the products of the recombination activating genes RAG1 and RAG2. Here, we show that RAG1 and RAG2 are not sufficient for 12/23 dependent cleavage, whereas RAG1 and RAG2 complemented with whole cell extract faithfully recapitulates the 12/23 rule. In addition, HMG box containing proteins HMG1 and HMG2 enhance RAG1- and RAG2-mediated cleavage of substrates containing 23 RSS but not of substrates containing only 12 RSS. These results suggest the existence of a nucleoprotein complex at the cleavage site, consisting of architectural, catalytic, and regulatory components.

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The Activation of Matrix Metalloproteinases by a Whole-cell Extract from Prevotella nigrescens

Journal of Endodontics ◽

10.1016/j.joen.2008.09.012 ◽

2009 ◽

Vol 35 (1) ◽

pp. 55-59 ◽

Cited By ~ 11

Author(s):

Takashi Itoh ◽

Hiroshi Nakamura ◽

Jun-ichi Kishi ◽

Taro Hayakawa

Keyword(s):

Matrix Metalloproteinases ◽

Cell Extract ◽

Whole Cell ◽

Prevotella Nigrescens ◽

Whole Cell Extract

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Mammalian transcription activation domains of VP16, AP2 and CTF activate transcription in a whole cell extract fromSchizosaccharomyces pombe through the SRB/mediator

Yeast ◽

10.1002/yea.1228 ◽

2005 ◽

Vol 22 (7) ◽

pp. 511-521 ◽

Cited By ~ 2

Author(s):

Evelyn Tamayo ◽

Giuliano Bernal ◽

Edio Maldonado

Keyword(s):

Transcription Activation ◽

Cell Extract ◽

Whole Cell ◽

Activation Domains ◽

Whole Cell Extract

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Contrasting human cytokine responses to promastigote whole-cell extract and the Leishmania analogue receptor for activated C kinase antigen of L. amazonensis in natural infection versus immunization

Clinical & Experimental Immunology ◽

10.1111/j.1365-2249.2008.03705.x ◽

2008 ◽

Vol 153 (3) ◽

pp. 369-375 ◽

Cited By ~ 8

Author(s):

R. B. G. Azeredo-Coutinho ◽

D. C. S. Matos ◽

G. G. R. Armôa ◽

R. M. Maia ◽

A. Schubach ◽

...

Keyword(s):

Natural Infection ◽

Cell Extract ◽

Whole Cell ◽

Cytokine Responses ◽

Whole Cell Extract ◽

Human Cytokine

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The ultrastructure and ATPase nature of polar membrane in Campylobacter jejuni

Canadian Journal of Microbiology ◽

10.1139/m88-099 ◽

1988 ◽

Vol 34 (5) ◽

pp. 594-604 ◽

Cited By ~ 8

Author(s):

F. M. Brock ◽

R. G. E. Murray

Keyword(s):

Atpase Activity ◽

Campylobacter Jejuni ◽

Rat Liver ◽

Liver Mitochondria ◽

Cell Extract ◽

Histochemical Staining ◽

Soluble Form ◽

Rat Liver Mitochondria ◽

Whole Cell ◽

Whole Cell Extract

Polar membrane in Campylobacter jejuni has been visualized on membrane vesicles. It was composed of doughnut-shaped particles 5–6 nm in diameter, with stalks, arranged in a hexagonal array. This structure was stabilized on the membrane by a high ionic strength buffer in the presence of 2-mercaptoethanol. Histochemical staining indicated localized ATPase activity at the poles of the cells. An ATPase with distinctive properties has been isolated and purified from this organism; it gives a specific activity of approximately 0.3 units/mg of protein. Electron microscopy showed doughnut-shaped particles 5–6 nm in diameter. Nondissociating and sodium dodecyl sulfate – polyacrylamide gel electrophoresis of the purified enzyme revealed, respectively, a single band with ATPase activity and a molecular weight of ca. 75 – 000 Da. The enzyme was cold labile and activity was abolished by trypsin. Dicylohexylcarbodiimide inhibited the membranebound form of the enzyme, but did not inhibit the soluble form. Oligomycin had no inhibitory activity on either form of the enzyme. The enzyme specifically hydrolysed ATP, but other nucleotide substrates were not degraded. The enzyme was activated by Mg2+ and inhibited by Ca2+, whereas other ions had no effect on activity. Antibodies prepared to this enzyme bound to the polar regions of whole cells as shown by protein A – colloidal gold immunoelectron microscopy. The antibodies to this ATPase cross reacted (shown by Western blotting) with four proteins from a whole-cell extract of this organism, two proteins in Aquaspirillum serpens MW5, and three proteins from Escherichia coli K12. They did not cross-react with any proteins from Spirillum volutans, Methanococcus voltae, Vibrio cholerae, or rat liver mitochondria. Antibodies raised against the F1-ATPase of E. coli K12 cross reacted with six proteins in a whole-cell extract of this organism, and one protein species in each of the whole-cell extracts of V. cholera, A. serpens MW5, S. volutans, and rat liver mitochondria. These antibodies did not recognize any whole cell proteins from either C. jejuni or M. voltae. These results along with the ATPase activity localized by histochemical staining suggest that polar membrane is an assembly of ATPase molecules at the poles of the cell and that the ATPase isolated from C. jejuni is serologically and structurally unusual.

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