Lilian Chooback scite author profile

The major photoproduct in UV-irradiated spore DNA is the unique thymine dimer 5-thyminyl-5,6-dihydrothymine, commonly referred to as spore photoproduct (SP). An important determinant of the high UV resistance of Bacillus subtilis spores is the accurate in situ reversal of SP during spore germination by the DNA repair enzyme SP lyase. To study the molecular aspects of SP lyase-mediated SP repair, the cloned B. subtilis splB gene was engineered to encode SP lyase with a molecular tag of six histidine residues at its amino terminus. The engineered six-His-tagged SP lyase expressed from the amyE locus restored UV resistance to spores of a UV-sensitive mutant B. subtilis strain carrying a deletion-insertion mutation which removed the entire splAB operon at its natural locus and was shown to repair SP in vivo during spore germination. The engineered SP lyase was purified both from dormant B. subtilis spores and from an Escherichia colioverexpression system by nickel-nitrilotriacetic acid (NTA) agarose affinity chromatography and was shown by Western blotting, UV-visible spectroscopy, and iron and acid-labile sulfide analysis to be a 41-kDa iron-sulfur (Fe-S) protein, consistent with its amino acid sequence homology to the 4Fe-4S clusters in anaerobic ribonucleotide reductases and pyruvate-formate lyases. SP lyase was capable of reversing SP from purified SP-containing DNA in an in vitro reaction either when present in a cell-free extract prepared from dormant spores or after purification on nickel-NTA agarose. SP lyase activity was dependent upon reducing conditions and addition ofS-adenosylmethionine as a cofactor.

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Glutamate 190 Is a General Acid Catalyst in the 6-Phosphogluconate-Dehydrogenase-Catalyzed Reaction

Karsten

Chooback

Cook

1998

Biochemistry

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Site-directed mutagenesis was used to change E190 of sheep liver 6-phosphogluconate dehydrogenase to A, D, H, K, Q, and R to probe its possible role as a general acid catalyst. Each of the mutant proteins was characterized with respect to the pH dependence of kinetic parameters. Mutations that eliminate a titrable group at position 190, result in pH-rate profiles with no observable pK on the basic side of the V/K6PG profile. Mutations that change the pK of the group at position 190 result in the expected pK perturbations in the V/K6PG profile. Kinetic parameters obtained at the pH optimum in the pH-rate profiles are consistent with a rate-limiting tautomerization of the 1,2-enediol of ribulose 5-phosphate consistent with the proposed role of E190. Data are also consistent with some participation of E190 in an isomerization required to form the active Michaelis complex.

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Crystal structures of manganese- and cobalt-substituted myoglobin in complex with NO and nitrite reveal unusual ligand conformations

Zahran

Chooback

Copeland

et al. 2008

Journal of Inorganic Biochemistry

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Nitrite is now recognized as a storage pool of bioactive nitric oxide (NO). Hemoglobin (Hb) and myoglobin (Mb) convert, under certain conditions, nitrite to NO. This newly discovered nitrite reductase activity of Hb and Mb provides an attractive alternative to mammalian NO synthesis from the NO synthase pathway that requires dioxygen. We recently reported the X-ray crystal structure of the nitrite adduct of ferric horse heart Mb, and showed that the nitrite ligand binds in an unprecedented O-binding (nitrito) mode to the d(5) ferric center in Mb(III)(ONO) [D.M. Copeland, A. Soares, A.H. West, G.B. Richter-Addo, J. Inorg. Biochem. 100 (2006) 1413-1425]. We also showed that the distal pocket in Mb allows for different conformations of the NO ligand (120 degrees and 144 degrees ) in Mb(II)NO depending on the mode of preparation of the compound. In this article, we report the crystal structures of the nitrite and NO adducts of manganese-substituted hh Mb (a d(4) system) and of the nitrite adduct of cobalt-substituted hh Mb (a d(6) system). We show that the distal His64 residue directs the nitrite ligand towards the rare nitrito O-binding mode in Mn(III)Mb and Co(III)Mb. We also report that the distal pocket residues allow a stabilization of an unprecendented bent MnNO moiety in Mn(II)MbNO. These crystal structural data, when combined with the data for the aquo, methanol, and azide MnMb derivatives, provide information on the role of distal pocket residues in the observed binding modes of nitrite and NO ligands to wild-type and metal-substituted Mb.

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Overexpression of p53 Protein in Cutaneous T Cell Lymphoma: Relationship to Large Cell Transformation and Disease Progression

Chooback

Wolfe

et al. 1998

Journal of Investigative Dermatology

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The molecular mechanisms by which advanced cases of cutaneous T cell lymphoma (CTCL) (mycosis fungoides/Sezary syndrome) undergo large cell transformation (LCT) and develop the morphologic appearance of a large cell lymphoma, are undefined. We used immunohistochemical analysis and polymerase chain reaction/single strand conformational polymorphism to examine whether p53 mutations are associated with disease progression and LCT in CTCL. p53 protein immunohistochemistry was performed on 37 paraffin embedded biopsies from 27 patients with CTCL; LCT was present in 15 biopsies. Overexpression of p53 protein was found in 11 of 37 CTCL biopsies including 10 of 15 biopsies (67%) with LCT in which p53 staining was predominantly seen in large transformed cells. In contrast, p53 immunostaining was found in only one of 22 CTCL biopsies without LCT (p < 0.0004). Serial biopsies revealed acquisition of p53 expression following LCT in two patients in whom initial diagnostic biopsies without LCT were p53 negative by immunostaining. All p53 protein positive biopsies were from advanced lesions (cutaneous tumors or extracutaneous sites); none of 12 patch/plaque stage CTCL biopsies demonstrated p53 staining. Polymerase chain reaction/single strand conformational polymorphism and sequencing analysis of p53 exons 4-8 was performed in 11 cases where frozen tissue was available. No mutations were detected in six cases positive for p53 protein expression. These results suggest overexpression of p53 protein in LCT and disease progression of CTCL by a mechanism other than p53 gene mutation, in most cases.

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Lysine 183 Is the General Base in the 6-Phosphogluconate Dehydrogenase-Catalyzed Reaction

1999

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Site-directed mutagenesis was used to change K183 of sheep liver 6-phosphogluconate dehydrogenase to A, E, H, C, Q, R, and M to probe its possible role as a general base catalyst. Each of the mutant proteins was characterized with respect to its kinetic parameters at pH 7 and the pH dependence of kinetic parameters for the K183R mutant enzyme. The only mutant enzyme that gives a significant amount of catalysis is the K183R mutant, and the extent of catalysis is decreased by about 3 orders of magnitude; the general base pK is perturbed to a pH value of >9. All other mutant enzymes exhibit rates that are decreased by about 4 orders of magnitude compared to that of the wild-type enzyme. Data are consistent with the general base function of K183.

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Lilian Chooback

Spore Photoproduct Lyase from Bacillus subtilis Spores Is a Novel Iron-Sulfur DNA Repair Enzyme Which Shares Features with Proteins such as Class III Anaerobic Ribonucleotide Reductases and Pyruvate-Formate Lyases

Glutamate 190 Is a General Acid Catalyst in the 6-Phosphogluconate-Dehydrogenase-Catalyzed Reaction

Crystal structures of manganese- and cobalt-substituted myoglobin in complex with NO and nitrite reveal unusual ligand conformations

Overexpression of p53 Protein in Cutaneous T Cell Lymphoma: Relationship to Large Cell Transformation and Disease Progression

Lysine 183 Is the General Base in the 6-Phosphogluconate Dehydrogenase-Catalyzed Reaction

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