Marta Blumenfeld scite author profile

CorrectionsBIOCHEMISTRY. For the article ''Interaction of RNA polymerase with forked DNA: Evidence for two kinetically significant intermediates on the pathway to the final complex,'' by Laura Tsujikawa, Oleg V. Tsodikov, and Pieter L. deHaseth, which appeared in number 6, March 19, 2002, of Proc. Natl. Acad. Sci. USA (99, 3493-3498; First Published March 12, 2002; 10.1073͞ pnas.062487299), the authors note the following concerning RNA polymerase (RNAP) concentrations. No correction was made for the fraction of RNAP (0.5) that is active in promoter binding. With this correction, the values of K 1 and K app (but not K f ) would increase by about a factor of 2. The relative values would remain essentially unchanged. Also, the legends to Figs. 2, 3, and 5 contain errors pertaining to the symbols used for data obtained with and without heparin challenge, the duration of the challenge, and the concentration of added heparin. The figures and the corrected legends appear below. Fig. 2. Determination of equilibrium affinities by titration of wt Fork with RNAP. The reactions contained 1 nM wt Fork and variable amounts of RNAP as shown and were analyzed by electrophoretic mobility shift immediately (OE; data shown are averages of three independent experiments) or after a challenge with 100 g͞ml heparin for 10 min (F; data shown are averages of four independent experiments). The curves shown reflect the simultaneous errorweighted fits of the data to Eqs. 3 and 4 -7. The parameters are shown in Table 1 (line 1). www.pnas.org͞cgi͞doi͞10.1073͞pnas.013667699 Fig. 3. Kinetics of complex formation. RNAP (65 nM) and wt forked DNA (1 nM) were incubated for various time intervals and then complex formation was determined immediately (Ϫheparin) or after a 2-min challenge with 100 g͞ml heparin (ϩheparin). The Ϫheparin data (s) were fit (error-weighted) with Eq. 8 with a 2 ϭ 0 (kaϪ ϭ 0.10 Ϯ 0.01 s Ϫ1 ) and the ϩheparin data (OE) with both single (k aϩ ϭ 0.036 Ϯ 0.004 s Ϫ1 ; thin line) and double-exponential (ka 1 ϭ 0.044 Ϯ 0.002 s Ϫ1 ; ka 2 ϭ (5 Ϯ 3) ϫ 10 Ϫ4 s Ϫ1 ; thick line) equations. Fig. 5.Comparison of the kinetics for formation and dissociation of competitor-resistant complexes between RNAP and wt Fork. Association data were obtained as described in the text and the legend for Fig. 3 except the concentration of forked DNA was 10 nM. Dissociation kinetics were obtained by challenging with 100 g͞ml heparin a mixture of RNAP and forked DNA that had been incubated for 30 min. The curves represent double-exponential fits of the data to Eq. 10. (A) wt RNAP. The observed association rate constants (s) are shown in the legend for Fig. 3; for the slow phase of the dissociation of the wt Fork-wt RNAP complex (F), kd 2 ϭ (1.3 Ϯ 0.2) ϫ 10 Ϫ4 s Ϫ1 . (B) YYW RNAP. The slow phase of the association reaction (F) has a ka 2 ϭ (1.1 Ϯ 0.3) ϫ 10 Ϫ3 s Ϫ1 ; the slow phase of the dissociation reaction (s), a kd 2 ϭ (6 Ϯ 1) ϫ 10 Ϫ4 s Ϫ1 . Fig. 6. BCL-6 preferentially binds to the wild-type exon 1 in Ly1 cells. Both Ly1 and the control Ly7 cells wer...

show abstract

Genetic Analysis of Case/Control Data Using Estimated Haplotype Frequencies: Application to APOE Locus Variation and Alzheimer's Disease

Fallin¹,

Cohen²,

Essioux³

et al. 2001

Genome Res.

401

252

View full text Add to dashboard Cite

There is growing debate over the utility of multiple locus association analyses in the identification of genomic regions harboring sequence variants that influence common complex traits such as hypertension and diabetes. Much of this debate concerns the manner in which one can use the genotypic information from individuals gathered in simple sampling frameworks, such as the case/control designs, to actually assess the association between alleles in a particular genomic region and a trait. In this paper we describe methods for testing associations between estimated haplotype frequencies derived from multilocus genotype data and disease endpoints assuming a simple case/control sampling design. These proposed methods overcome the lack of phase information usually associated with samples of unrelated individuals and provide a comprehensive way of assessing the relationship between sequence or multiple-site variation and traits and diseases within populations. We applied the proposed methods in a study of the relationship between polymorphisms within the APOE gene region and Alzheimer's disease. Cases and controls for this study were collected from the United States and France. Our results confirm the known association between the APOE locus and Alzheimer's disease, even when the 4 polymorphism is not contained in the tested haplotypes. This suggests that, in certain situations, haplotype information and linkage disequilibrium-induced associations between polymorphic loci that neighbor loci harboring functional sequence variants can be exploited to identify disease-predisposing alleles in large, freely mixing populations via estimated haplotype frequency methods.

show abstract

A liver-specific factor essential for albumin transcription differs between differentiated and dedifferentiated rat hepatoma cells.

Cereghini¹,

Blumenfeld²,

Yaniv³

1988

Genes Dev.

303

235

View full text Add to dashboard Cite

We have identified and characterized two mutually exclusive nuclear proteins that interact with a single crucial element of the albumin promoter. One, albumin proximal factor (APF), is found only in liver or differentiated hepatoma cells and is probably identical to the liver-specific factors named HNFl, alTFB, or HPl-binding protein. The other, variant albumin proximal factor (vAPF), is present in dedifferentiated hepatoma cells as well as in somatic cell hybrids that show extinction of the expression of liver-specific proteins, including albumin. Reversion to the hepatic phenotype of either a dedifferentiated variant or an extinguished somatic hybrid clone is accompanied by loss of vAPF and reappearance of APF. These two proteins differ in their thermostability and in their molecular weight, while displaying identical sequence specificities. Both proteins interact with a homologous motif present in promoter regions of several other liver-specific genes. In vitro transcription assays, using a rat liver nuclear extract, indicate that the binding of APF to its target sequence is required for albumin transcription. These results suggest that a modification in the primary structure of a transcription factor is correlated with the differentiated state of the hepatic cell.

show abstract

Analysis of the distribution of binding sites for a tissue-specific transcription factor in the vertebrate genome 1 1Edited by M. Gottesman

Tronche

Ringeisen

Blumenfeld³

et al. 1997

Journal of Molecular Biology

168

127

View full text Add to dashboard Cite

A distal dimerization domain is essential for DNA-binding by the atypical HNF1 homeodomain

Chouard¹,

Blumenfeld²,

Bach³

et al. 1990

Nucl Acids Res

133

104

View full text Add to dashboard Cite

Hepatic Nuclear Factor 1 (HNF1, also referred to as LFB1, HP1 or APF) is a liver-specific transcription factor required for the expression of many hepatocyte specific genes. We report here the purification of this rat liver nuclear protein and the cloning of its cDNA using a PCR-derived approach. Seven independent clones reveal 3 alternative polyadenylation sites and a unique open reading frame. Both a motif homologous to the homeodomain and a distal dimerization domain are required for specific DNA binding. Sequence comparisons reveal several atypical features at key positions in the segment corresponding to helices III and IV of the Antaennapedia homeodomain as well as a potential 24 amino acid loop in place of the universal turn between helices II and III. Together with its property to dimerize in the presence or absence of DNA, these features place HNF1 as the prototype of a novel subclass of transcription factors distantly related to homeoproteins.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.