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Query: UMLS:C0039483 (
giant cell arteritis
)
3,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
10 derivations of rat tracheal epithelial (RTE) cells, including normal cells, normal primary cultures, 7 tumorigenic cell lines and 1 nontumorigenic cell line transformed in vitro by treatment with 7,12-dimethylbenz[a]anthracene (DMBA), benzo[a]
pyrene
(BP) and/or 12-O-tetradecanoylphorbol-13-acetate (TPA) were examined for oncogene alterations. No abnormalities of Ha-ras or Ki-ras were seen that were suggestive of amplification, rearrangement or the presence of RFLPs. Analysis of specific-point mutations in Ha-ras using Pst I digestion (codon 12, GGA to
GCA
) or Ha-ras and Ki-ras using Xba I (codon 61, CAA to CTA) were negative. In one cell line derived by DMBA treatment, changes in the c-myc restriction digest pattern were seen after incubation with Bam HI and Hind III. Northern analysis revealed consistent differences between normal and transformed cells when probed with Ha-ras; c-myc expression was of low intensity, and the expression of Ki-ras could not be detected. Transfection of RTE cell DNAs into NIH/3T3 cells did not result in the appearance of morphologic transformants. The studies suggest that Ha-ras or Ki-ras codon 61 A to T transversions (CAA to CTA) are not associated with the immortal/tumorigenic phenotype in RTE cells transformed by DMBA or TPA, and are in contrast to results reported in some other biological systems.
...
PMID:Oncogene alterations in in vitro transformed rat tracheal epithelial cells. 169 45
The mutagenic and carcinogenic substance benzo[a]
pyrene
reacts with DNA following activation to its corresponding 7,8-diol 9,10-epoxide (BPDE), and the major DNA adduct (BP-N2-Gua) is formed when the C(10)-position of BPDE reacts with the N2-position of guanine. It is unknown if this adduct is a premutagenic lesion in vivo. Herein, the construction and characterization of an M13mp19-based, E. coli vector that contains BP-N2-Gua located in the unique PstI restriction endonuclease recognition site at nucleotide position 6249 in the (-)-strand is described (designated, BP-N2-Gua-M13mp19). First, the oligonucleotide 5'-TGCA-3' was reacted with BPDE and a product (5'-T(BP-N2)
GCA
-3') was isolated by HPLC that, when enzymatically digested to deoxynucleosides, yielded an adduct that comigrated on HPLC with an authentic BP-N2-Gua deoxynucleoside standard. Second, the 5'-hydroxyl group of 5'-T-(BP-N2)
GCA
-3' was phosphorylated with ATP and T4 polynucleotide kinase, and the product (5'-pT(BP-N2)
GCA
-3') was purified by HPLC. This product is stable when heated at 80 degrees C at both neutral and alkaline pH. Third, M13mp19 was manipulated such that the sequence 5'-pTGCA-3' was selectively removed from the (-)-strand in its unique PstI recognition site, and 5'-pT(BP-N2)
GCA
-3' was ligated into this gap with T4 DNA ligase and ATP. The product of this reaction (BP-N2-Gua-M13mp19) was shown to be insensitive to cleavage by PstI, which suggests that a modification is located in the PstI recognition site. The most likely modification is the adduct BP-N2-Gua.
...
PMID:Construction of an Escherichia coli vector containing the major DNA adduct of activated benzo[a]pyrene at a defined site. 297 26
The (+)-trans-anti-benzo[a]
pyrene
adduct formed at the N2 amino group of guanine is the major adduct found after metabolic activation of the ubiquitous carcinogen benzo[a]
pyrene
. The carcinogenic and mutagenic properties of the (+)-trans-anti-BP adduct, as well as related adducts, have been extensively studied. A DNA duplex containing a (+)-trans-anti-benzo[a]
pyrene
adduct covalently attached to the G8 nucleotide in the sequence d(CCTATGT[BP-G]CAC).d(GTGCACATAGG) was synthesized and the structure characterized by one- and two-dimensional NMR spectroscopy, in conjunction with energy minimization and molecular dynamics. This BP-11-mer duplex exhibits NOESY cross-peaks between benzo[a]
pyrene
protons and BP-G8, C9, A16, and C17 nucleotide protons that clearly delineate the location of the BP moiety in the minor groove of a B-type duplex with the
pyrene
ring oriented toward the 5' end of the modified strand. Large upfield shifts of A16 and C17 sugar resonances in the partner strand show that the
pyrene
moiety is situated near these sugars. Analysis of the spectra was complicated by the presence of chemical exchange line broadening of protons located near the (...T[BP-G]C...).(...
GCA
...) adduct site which shows the presence of a minor conformation for this BP-modified duplex in which TA is the 5' neighboring base pair. Distance restraints determined from NOESY spectra recorded at 20 degrees C were used in restrained and unrestrained energy minimization and molecular dynamics simulations to obtain a structure characteristic of the predominant conformation of the BP-11-mer duplex. The important structural features of the BP-11-mer are similar to those reported by Cosman et al. [(1992) Proc. Natl. Acad. Sci. U.S.A. 89, 1914-1918] for a (+)-trans-anti-BP adduct at a (...C[BP-G]C...).(...GCG...) sequence in which CG is the 5' neighboring base pair. No evidence of a conformational equilibrium was reported in this duplex, from which we conclude that the presence of a 5' TA base pair plays a role in the conformational equilibrium. Watson-Crick base pairing is retained in the predominant conformer of the (+)-trans-anti-BP modified duplex, which provides a visualization of a structure that could allow faithful replication. The exchange rate could not be slowed sufficiently to allow individual distance parameters to be obtained for the minor conformer.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Structural characterization of a (+)-trans-anti-benzo[a]pyrene-DNA adduct using NMR, restrained energy minimization, and molecular dynamics. 788 Aug 10
Covalent binding of (+)-anti-benzo[a]
pyrene
7,8-dihydrodiol 9, 10-epoxide (anti-BPDE) to the N(2)-amino group of deoxyguanine in the oligonucleotides 5'-d(CCTATCGXTATCC) and 5'-d(CCTATm(5)CGXTATCC) (X being T, A, or C) has been studied. The extent of formation of the (+)-trans-anti-BPDE-N(2)-dG adduct in single-stranded 13-mer oligonucleotides with 5'-d(m(5)CGT) and 5'-d(m(5)CGA) sequence contexts was significantly higher (1.5- and 2.4-fold, respectively) relative to that of the nonmethylated sequences. With the 5'-d(CGC) sequence context, m(5)dC had no significant effect on adduct formation. When the reaction was allowed to proceed in the presence of oligonucleotide duplexes (composed of a 13-mer parent strand and a 9-mer complement), a significant increase in the extent of adduct formation was observed with 5'-d(m(5)CGT)/d(CGA) and 5'-d(m(5)CGA)/d(CGT), but not with 5'-d(CGC)/d(GCG), relative to those of the nonmethylated duplexes. Independent of sequence context, no clear effect of m(5)dC on diol epoxide binding to the opposite dG in the complementary strand was observed. The level of diol epoxide binding to the dG target in the 13-mer oligonucleotides is in general higher in single-stranded sequences than in the duplexes. With 5'-d(CGA) and 5'-d(m(5)CGA), for instance, adduct yields were 3- and 4-fold higher, respectively. The thermodynamic stability of the (+)-trans-anti-BPDE-N(2)-dG adduct in the 5'-d(m(5)CGT)-containing duplex (composed of a 13-mer parent strand and a full complement) was substantially higher than in the 5'-d(CGT)/d(
GCA
) sequence context. The stimulating effect of cytosine methylation on the formation of DNA adducts of anti-BPDE has previously been demonstrated in other experimental systems. The increase in yield could possibly be rationalized in terms of prestacking of the pyrenyl ring system with the nucleobases prior to the nucleophilic addition reaction of the exocyclic amino group. The results from induced circular dichroism studies with the (+)-trans-anti-BPDE-N(2)-dG adduct in the 5'-d(m(5)CGT)-containing duplex are consistent with substantial heterogeneity of adduct conformations, including both external minor groove-localized and intercalated structures.
...
PMID:Implications of cytosine methylation on (+)-anti-Benzo[a]pyrene 7, 8-dihydrodiol 9,10-epoxide N(2)-dG adduct formation in 5'-d(CGT), 5'-d(CGA), and 5'-d(CGC) sequence contexts of single- and double-stranded oligonucleotides. 1049 May 3
