Identification of mutations in exons 1 through 8 of the cystic fibrosis transmembrane conductance regulator (CFTR) gene.

Five different mutations have been identified in the gene causing cystic fibrosis (CF) through sequencing regions encompassing exons 1-8, including the 5' untranslated leader. Two of these apparent mutations are missense mutations, one in exon 3 (Gly to Glu at position 85; G85E) and another in exon 5 (Gly to Arg at 178; G178R), both causing significant changes in the corresponding amino acids in the encoded protein--cystic fibrosis transmembrane conductance regulator (CFTR). Two others affect the highly conserved RNA splice junction flanking the 3' end of exons 4 and 5 (621 + 1G----T, 711 + 1G----T), resulting in a probable splicing defect. The last mutation is a single-basepair deletion in exon 4, causing a frameshift. These five mutations account for the 9 of 31 non-delta F508 CF chromosomes in our Canadian CF family collection and they are not found in any of the normal chromosomes. Three of the mutations, 621 + 1G----T, 711 + 1G----T, and G85E, are found in the French-Canadian population, with 621 + 1G----T being the most abundant (5/7). There are two other sequence variations in the CFTR gene; one of them (129G----C) is located 4 nucleotides upstream of the proposed translation initiation codon and, although present only on CF chromosomes, it is not clear whether it is a disease-causing mutation; the other (R75Q) is most likely a sequence variation within the coding region.     

DNA sequence determinants for binding of the Escherichia coli catabolite gene activator protein.

The consensus DNA site for binding of the Escherichia coli catabolite gene activator protein (CAP) is 22 base pairs in length and is 2-fold symmetric: 5'-AAATGTGATCTAGATCACATTT-3'. Positions 4 to 8 of each half of the consensus DNA half-site are the most strongly conserved. In this report, we analyze the effects of substitution of DNA base pairs at positions 4 to 8, the effects of substitution of thymine by uracil and by 5-methylcytosine at positions 4, 6, and 8, and the effect of dam methylation of the 5'-GATC-3' sequence at positions 7 to 10. All DNA sites having substitutions of DNA base pairs at positions 4 to 8 exhibit lower affinities for CAP than does the consensus DNA site, consistent with the proposal that the consensus DNA site is the ideal DNA site for CAP. Specificity for T:A at position 4 appears to be determined solely by the thymine 5-methyl group. Specificity for T:A at position 6 and specificity for A:T at position 8 appear to be determined in part, but not solely, by the thymine 5-methyl group. dam methylation has little effect on CAP.DNA complex formation. The thermodynamically defined consensus DNA site spans 28 base pairs. All, or nearly all, DNA determinants required for maximal affinity for CAP and for maximal thermodynamically defined CAP.DNA ion pair formation are contained within a 28-base pair DNA fragment that has the 22-base pair consensus DNA site at its center. The quantitative data in this report provide base-line thermodynamic data required for detailed investigations of amino acid-base pair and amino acid-phosphate contacts in this protein-DNA complex.     

Systematic single base-pair substitution analysis of DNA binding by the cAMP receptor protein in cyanobacterium Synechocystis sp. PCC 6803

The cAMP receptor protein SYCRP1 in cyanobacterium Synechocystis sp. PCC 6803 is a regulatory protein that binds to the consensus DNA sequence (5'-AAATGTGATCTAGATCACATTT-3') for the cAMP receptor protein CRP in Escherichia coli. Here we examined the effects of systematic single base-pair substitutions at positions 4-8 (TGTGA) of the consensus sequence on the specific binding of SYCRP1. The consensus sequence exhibited the highest affinity, and the effects of base-pair substitutions at positions 5 and 7 were the most deleterious. The result is similar to that previously reported for CRP, whereas there were differences between SYCRP1 and CRP in the rank order of affinity for each substitution.     

Sequence and structural requirements for high-affinity DNA binding by the WT1 gene product.

The Wilms' tumor suppressor gene, WT1, encodes a zinc finger polypeptide which plays a key role regulating cell growth and differentiation in the urogenital system. Using the whole-genome PCR approach, we searched murine genomic DNA for high-affinity WT1 binding sites and identified a 10-bp motif 5'GCGTGGGAGT3' which we term WTE). The WTE motif is similar to the consensus binding sequence 5'GCG(G/T)GGGCG3' recognized by EGR-1 and is also suggested to function as a binding site for WT1, setting up a competitive regulatory loop. To evaluate the underlying biochemical basis for such competition, we compared the binding affinities of WT1 and EGR1 for both sequences. WT1 shows a 20- to 30-fold-higher affinity for the WTE sequence compared with that of the EGR-1 binding motif. Mutational analysis of the WTE motif revealed a significant contribution to binding affinity by the adenine nucleotide at the eighth position (5'GCGTGGGAGT3') as well as by the 3'-most thymine (5'GCGTGGGAGT3'), whereas mutations in either flanking nucleotides or other nucleotides in the core sequence did not significantly affect the specific binding affinity. Mutations within WT1 zinc fingers II to IV abolished the sequence-specific binding of WT1 to WTE, whereas alterations within the first WT1 zinc finger reduced the binding affinity approximately 10-fold but did not abolish sequence recognition. We have thus identified a WT1 target, which, although similar in sequence to the EGR-1 motif, shows a 20- to 30-fold-higher affinity for WT1. These results suggest that physiological action of WT1 is mediated by binding sites of significantly higher affinity than the 9-bp EGR-1 binding motif. The role of the thymine base in contributing to binding affinity is discussed in the context of recent structural analysis.     

Mutational Analysis of Pre-mRNA Splicing in Saccharomyces Cerevisiae Using a Sensitive New Reporter Gene, Cup1

We have developed a new reporter gene fusion to monitor mRNA splicing in yeast. An intron-containing fragment from the Saccharomyces cerevisiae ACT1 gene has been fused to CUP1, the yeast metallothionein homolog. CUP1 is a nonessential gene that allows cells to grow in the presence of copper in a dosage-dependent manner. By inserting previously characterized intron mutations into the fusion construct, we have established that the efficiency of splicing correlates with the level of copper resistance of these strains. A highly sensitive assay for 5' splice site usage was designed by engineering an ACT1-CUP1 construct with duplicated 5' splice sites; mutations were introduced into the upstream splice site in order to evaluate the roles of these highly conserved nucleotides in intron recognition. Almost all mutations in the intron portion of the 5' consensus sequence abolish recognition of the mutated site, while mutations in the exon portion of the consensus sequence have variable affects on cleavage at the mutated site. Interestingly, mutations at intron position 4 demonstrate that this nucleotide plays a role in 5' splice site recognition other than by base pairing with U1 snRNA. The use of CUP1 as a reporter gene may be generally applicable for monitoring cellular processes in yeast.     

Segment-specific mutagenesis of the regulatory region in the Escherichia coli galactose operon: isolation of mutations reducing the initiation of transcription and translation

Using hydroxylamine mutagenesis in vitro, mutations were introduced into a short DNA fragment containing the two overlapping promoters of the Escherichia coli galactose operon and the start of the first gal gene, galE. The mutagenised fragment was inserted into a lac expression plasmid. In such a vector, lac expression is controlled by the gal promoter region. Amongst eighteen candidates in which expression was reduced due to mutations in the gal fragment, twelve contained promoter mutations and six carried mutations that reduce the initiation of galE translation. The candidates in which promoter activity was reduced contained mutations affecting the promoter P1, which is dependent on the cyclic AMP-receptor protein complex (cAMP-CRP) for activation. All carried mutations in the sequence 5'GTGA3' at the CRP binding site. One of the twelve also contained a second mutation affecting the second promoter, P2, which normally functions in the absence of cAMP-CRP. Amongst the six candidates affecting galE translation, two contained a mutation that changes the initiator codon from AUG to AUA and almost completely suppresses galE expression. The mutations in the other four candidates affect the ribosome binding sequence, 5'GGAG3'. However, multiple mutations that abolish this sequence do not totally suppress galE expression, showing that there must be another way to guide ribosomes to the correct initiation site.     

Functional characterization of an androgen response element in the first intron of the C3(1) gene of prostatic binding protein

We demonstrate that the 204 bp intronic gene fragment of C3(1), which has a specific in vitro affinity for the androgen receptor, is able to confer androgen responsiveness to a heterologous promoter. This characteristic is completely destroyed by a single G----T substitution, affecting a 5'-TGTTCT-3' element that closely resembles the consensus sequence of the glucocorticoid and progesterone response elements (GRE/PRE). In fact we could show that this androgen response element (ARE) also acts as a similarly weak GRE or PRE in T-47D cells.     

From footprint to toeprint: a close-up of the DnaA box, the binding site for the bacterial initiator protein DnaA.

The Escherichia coli DnaA protein binds as a monomer to the DnaA box, a 9 bp consensus sequence: 5'-TTA/TTNCACA. To assess the contribution of individual bases to protein binding we probed the DnaA-DnaA box complex with the uracil-DNA glycosylase (UDG) footprinting technique. (i) dU at the positions of T2, T4, T7' or T9' completely inhibits DnaA binding to the DnaA box. At these positions the methyl groups of the thymine residues are essential for successful DnaA binding, indicating protein contact with the major groove. Additionally they are positioned exactly on one side of the helix. (ii) dU at the position of T1 or at three T residues adjacent to the 9 bp core sequence of the DnaA box allows DnaA binding. These positions are protected from UDG digestion as revealed by the footprint assay. (iii) dU at the position of T3' on the complementary strand of teh box 5'-TTATCCACA was not protected from UDG digestion in DNA-DnaA complexes. Therefore, DnaA cannot contact the major groove at this position. In addition, a slight bend of the DnaA box towards UDG would help the enzyme to access this site.     

The TGGCA-binding protein: a eukaryotic nuclear protein recognizing a symmetrical sequence on double-stranded linear DNA.

Low salt extracts of chicken oviduct nuclei contain a DNA binding protein with high affinity for specific DNA sequences in the flanking regions of the chicken lysozyme gene. Two of the three binding sites found within a total of 11 kb upstream from the promoter are located only 92 bp apart from each other. Upon comparison of the DNA binding sites, the symmetrical consensus sequence 5'- TGGCANNNTGCCA -3' can be deduced as the protein recognition site. This sequence is the central part of 23 to 25 base pairs protected by the DNA binding protein from DNAase I digestion. A homologous binding activity can be detected in nuclei from several chicken tissues and from mouse liver.     

Beta-thalassemia mutations in Indonesia and their linkage to beta haplotypes.

A total of 72 chromosomes from 36 Indonesian patients, 23 with beta-thalassemia major and 13 with Hb E-beta-thalassemia, were analyzed by specific oligonucleotide hybridization after DNA amplification. Thirteen had the beta E mutation (codon 26 GAG----AAG). Of the 59-beta-thalassemic chromosomes, 32 were of the variant IVS-1 nt5 (G----C). Seven had the mutation IVS-2 nt654 (C----T), one had the mutation codon 41/42 (deletion CTTT), and one had the mutation codon 17 (AAG----TAG). Another six with the mutation IVS-1 nt1 (G----T), one with the mutation IVS-1 nt1 (G----A), four with the mutation codon 15 (TGG----TAG), one with a mutation codon 30 (AGG----ACG), and one with a mutation codon 35 (deletion C) were first identified by direct sequencing of a patient's genomic DNA followed by further hybridizing other patients' DNA with the appropriate oligonucleotide probes. Five did not carry the common mutations previously described in Asian populations. The four most prevalent mutations encountered made up 83% of the total number of beta-thalassemic chromosomes studied. The most common mutation, IVS-1 nt5 (G----C), was mostly associated with two different haplotypes.     

Isolation and characterization of Limulus C-reactive protein genes

Three homologous genes coding for Limulus C-reactive protein (CRP) have been isolated and characterized from a lambda phage EMBL-3 library containing genomic DNA sequences from Limulus amebocytes. The genes have a typical promoter region with a CAAT (nucleotides 50-53) and a TATAA (nucleotides 77-81) box located, respectively, 178 and 149 base pairs 5' upstream from the initiation codon ATG. The polyadenylation site AATAAA is situated within 300 base pairs downstream from the stop codon TAG. Nucleotide sequence analysis reveals a 24-residue signal peptide preceding a coding region of 218 amino acids. Significant differences were found between the genes coding for human and Limulus CRPs. In the human CRP gene there is an intron separating the signal peptide and the coding region. In Limulus this intervening sequence is missing. The Drosophila heat shock consensus sequence CTnGAAnnTTnAG (Simon, J. A., Sutton, C. A., Lobell, R. B., Glaser, R. L., and Lis, J. T. (1985) Cell 40, 805-817), found in the genes of human (Woo, P., Korenberg, J. R., and Whitehead, A. S. (1985) J. Biol. Chem. 260, 13384-13388) and rabbit (Syin, C., Gotschlich, E. C., and Liu, T.-Y. (1986) J. Biol. Chem. 261, 5473-5479) CRP at the 5' end, is not found in the Limulus CRP genes. Whereas a single CRP gene was found in the human, multiple genes were found for the Limulus CRPs. All CRPs exhibit calcium-dependent phosphorylcholine ligand binding properties. The coding regions of the Limulus and human CRP genes share approximately 25% identity and two stretches of highly conserved regions, one of which falls in the region proposed as the phosphorylcholine binding site, while the other site is very similar to the consensus sequence required for calcium binding in calmodulin and related proteins. The nucleotide sequence analysis provides convincing evidence to support the evolutionary relatedness of the human and Limulus CRPs.     

Comparison of the binding sites for the Escherichia coli cAMP receptor protein at the lactose and galactose promoters

Polyacrylamide gel electrophoresis has been used to visualise and quantitate complexes between the Escherichia coli cyclic AMP receptor protein (CRP) and DNA fragments containing the promoter region of either the E. coli galactose or lactose operons. We show that, although CRP binding to the gal fragment is weaker than binding to the lac fragment, in each case, stable complexes are formed between one dimer of CRP and one molecule of DNA. We have examined the effects of a series of deletions and point mutations in the gal promoter region on CRP binding. From the position of deletions and mutations which prevent the formation of stable complexes, we deduce the location and extent of the sequence at the CRP binding site. We show that it covers approximately the same length of sequence as the binding site at the lac promoter. Unlike the lac site, the gal site contains no palindromic sequence. We discuss the importance of symmetry in the sequence at CRP binding sites and the validity of CRP binding consensus sequences which have been proposed.     

1H NMR and optical spectroscopic investigation of the sequence-dependent dimerization of a symmetrical cyanine dye in the DNA minor groove

A symmetrical cyanine dye was previously shown to bind as a cofacial dimer to alternating A-T sequences of duplex DNA. Indirect evidence suggested that dimerization of the dye occurred in the minor groove. 1H NMR experiments reported here verify this model based on broadening and shifting of signals due to protons on carbon 2 of adenine and imino protons at the central five A-T pairs of the 11 base pair duplex: 5'-GCGTATATGCG-3'/3'-CGCATATACGC-5'. This binding mode is similar to that of distamycin A, even though the dye lacks the hydrogen-bonding groups used by distamycin for sequence-specific recognition. Surprisingly, the third base pair (G-C) was also implicated in the binding site. UV-vis experiments were used to compare the extent of dimerization of the dye for 11 different sequence variants. These experiments verified the importance of a G-C pair at the third position: replacing this pair with A-T suppressed dimerization. These results indicate that the dye binding site spans six base pairs: 5'-GTATAT-3'. The initial G-C pair seems to be important for widening the minor groove rather than for making important contacts with the dye molecules since inverting its orientation to C-G or replacing it with I-C still led to favorable dimerization of the dye.     

Multiple sequence-specific DNA binding activities are eluted from chicken nuclei at low ionic strengths.

DNA sequence-specific binding proteins eluted from chicken erythrocyte and thymus nuclei, and fractionated as described by Emerson and Felsenfeld (19), have been investigated by filter binding and footprint analyses. The erythrocyte nuclear protein fraction specifically binds to at least two sites within the 5' flanking chromatin hypersensitive site of the chicken beta A-globin gene, and to a site 5' to the human beta-globin gene. The major chicken beta A globin gene binding site [G)18CGGGTGG) and the human beta-globin gene binding site [TA)6(T)8C(T)4) occur at or near sequences which are hypersensitive to S1 nuclease cleavage in supercoiled plasmids. Downstream, the second chicken beta A-globin gene binding site includes the beta-globin gene CACCC consensus sequence. Filter binding studies also show other sequence specific binding activities to human N-ras and human (but not chicken) c-myc gene sequences.