Identification of two factors which bind to the upstream sequences of a number of nuclear genes coding for mitochondrial proteins and to genetic elements important for cell division in yeast.

Two abundant factors, GFI and GFII which interact with the 5' flanking regions of nuclear genes coding for proteins of the mitochondrial respiratory chain have been identified. In one case (subunit VIII of QH2: cytochrome c oxidoreductase) the binding sites for both factors overlap completely and their binding is mutually exclusive. For the other 5' regions tested the GFI and GFII binding sites do not coincide. Interestingly, binding sites for GFI and GFII are also present in or at the 3' ends of the coding regions of two genes of the PHO gene family and in DNA elements important for optimal ARS and CEN function respectively. The sites recognized by GFI conform to the consensus RTCRNNNNNNACGNR, while those recognized by GFII contain the element RTCACGTG. We speculate that GFI and GFII may play a role in different cellular processes, dependent on the context of their binding sites and that one of these processes may be the coordination of the expression of genes involved in mitochondrial biogenesis with the progress of the cell cycle.     

Nuclear matrix proteins bind very tightly to specific regions of the chicken histone H5 gene.

The nuclear matrix is operationally defined as the structure remaining after nuclease-digested nuclei are extracted with high concentrations of salt. The nuclear matrix is thought to have a role in organizing higher order chromatin into loop domains. We determined whether specific regions of the histone H5 gene were very tightly bound to protein of erythrocyte and liver nuclear matrices in vitro. We demonstrate that DNA fragments spanning sequences 5' to the promoter and the 3' enhancer region of the histone H5 gene, but not DNA fragments spanning the promoter, were very tightly bound to protein of nuclear matrices of erythrocytes and liver. The nuclear matrix consists of internal nuclear matrix and nuclear pore-lamina complex. Recently, we demonstrated that histone deacetylase could be used as a marker enzyme of the internal nuclear matrix. We demonstrate that nuclear pore-lamina complex preparations that were depleted of histone deacetylase activity, and thus of internal nuclear matrix, retained the protein that bound very tightly to the beta-globin and histone H5 enhancers. These results provide evidence that specific regions of the histone H5 gene are very tightly bound to nuclear pore-lamina complex protein.     

Cotyledon nuclear proteins bind to DNA fragments harboring regulatory elements of phytohemagglutinin genes.

The effects of deleting DNA sequences upstream from the phytohemagglutinin-L gene of Phaseolus vulgaris have been examined with respect to the level of gene product produced in the seeds of transgenic tobacco. Our studies indicate that several upstream regions quantitatively modulate expression. Between -1000 and -675, a negative regulatory element reduces expression approximately threefold relative to shorter deletion mutants that do not contain this region. Positive regulatory elements lie between -550 and -125 and, compared with constructs containing only 125 base pairs of upstream sequences (-125), the presence of these two regions can be correlated with a 25-fold and a 200-fold enhancement of phytohemagglutinin-L levels. These experiments were complemented by gel retardation assays, which demonstrated that two of the three regions bind cotyledon nuclear proteins from mid-mature seeds. One of the binding sites maps near a DNA sequence that is highly homologous to protein binding domains located upstream from the soybean seed lectin and Kunitz trypsin inhibitor genes. Competition experiments demonstrated that the upstream regions of a bean beta-phaseolin gene, the soybean seed lectin gene, and an oligonucleotide from the upstream region of the trypsin inhibitor gene can compete differentially for factor binding. We suggest that these legume genes may be regulated in part by evolutionarily conserved protein/DNA interactions.     

Function of the upstream hypersensitive sites of the chicken beta-globin gene cluster in mice.

We have shown previously that the chicken beta A-globin gene, with its 3' enhancer, is expressed in a copy number-dependent manner in transgenic mice. The expression level was low but increased approximately 6-fold upon inclusion of 11 kb of upstream DNA containing four DNase I hypersensitive sites. To study the effect of the individual upstream hypersensitive sites on transgene expression, we produced lines of mice in which the individual upstream sites were linked to the beta A gene and enhancer. RNA levels were measured in blood from adult animals. With each of these four constructs, the level of transgene RNA per DNA copy varied over a > 20-fold range. These data suggest that addition of a hypersensitive site to the beta A-globin/enhancer region abrogates its position independent expression. The average beta A-globin expression per copy in the lines carrying an upstream site was comparable with that in lines without an upstream site. Thus, no single upstream hypersensitive site accounts for the higher level of beta A-globin expression seen in mice containing the complete upstream region. We had shown previously that control of the chicken beta-globin cluster is distributed between at least two regions, the beta A/epsilon enhancer and the upstream region. Our current results suggest that the control mediated by the upstream DNA is itself distributed and is not due to a single hypersensitive site.     

Characterization of proteins from Ascaris lumbricoides which bind specifically to carboxypeptidase.

Inhibitors of the peptidase and esterase activities of carboxypeptidases A and B have been isolated from extracts of Ascaris lumbricoides var suis. These proteins were obtained by treatment of the aqueous extracts at low pH, precipitation with ammonium sulfate, molecular sieving on Bio-Gel P-4, and chromatography on DEAE-cellulose. The inhibitors were resolved into three homogeneous peaks on CM-cellulose. These components, CM-A, CM-B, and CM-C, have constant specific activity and were recovered in a 41% yield. They moved as single bands when subjected to electrophoresis at high or low pH on polyacrylamide gels and they have similar amino acid compositions. Methionine, tyrosine, and cysteine are absent from each of the inhibitors. The 65 residues of CM-B suggest a minimum molecular weight of 7530, in close agreement to the value of 7600 +/- 200 determined on a Bio-Gel P-100 column. Each of the proteins has the same NH2-terminal residues, NH2-Asx-Glx-Val-Glx- and the same COOH-terminal residue, leucine. A plot of per cent acrylamide versus log relative mobility suggests that the three proteins are charge isomers. CM-B appears to be stable to high NaCl concentrations, extremes of pH, high temperatures, and digestion by intestinal proteases. Carboxypeptidase C, carboxypeptidase N, and yeast protease C are not inhibited by CM-B. However, the exopeptidase and esterase activities of human carboxypeptidase A are inhibited. The inhibitors appear to bind to bovine carboxypeptidase A with an atypical stoichiometry. Two moles of CM-B inhibitor bind to 1 mol of enzyme. The evidence is: (a) a demonstrated purity of bovine carboxypeptidase A, (b) minimal and maximal inhibitor molecular weights by different methods, of 7600 and 8300, and (c) a maximum specific activity of apparently homogeneous inhibitors which is 50% of that predicted for unit stoichiometry.     

Purification and biochemical characterization of proteins which bind to the H-box cis-elementimplicated in transcriptional activation of plant defense genes

The H-box (CCTACC(N)₇CT(N)₄A), which occurs three times within the −154 to −42 region of the bean chalcone synthase chs15 promoter, is important for developmental regulation of chs15 , and induction of chs15 and coordinately regulated defense genes by elicitors and other stress stimuli. Two protein factors, KAP-1 and KAP-2, which recognize conserved features in the H-box motif, were purified from bean cell suspension cultures by a combination of ion exchange chromatography and DNA affinity chromatography. KAP-1 is a 97 kDa polypeptide, whereas KAP-2 comprises two polypeptides of 76 and 56 kDa. KAP-1 and KAP-2 also differ in the sensitivity of their DNA-bound forms to trypsin. Dephosphorylation of KAP-1 or KAP-2 affects the mobility of the protein/H-box binding complex in gel shift assays but does not inhibit DNA binding. Elicitation of bean cell suspensions with glutathione does not affect the total cellular activities of KAP-1 or KAP-2, but causes a rapid increase in the specific activities of both factors in the nuclear fraction, consistent with a role for these factors in the signal pathway for elicitor induction of chs15 and related defense genes.     

Purification of multiple erythroid cell proteins that bind the promoter of the alpha-globin gene.

Three erythroid cell factors that bind the murine alpha-globin promoter were enriched more than 1,000-fold by conventional and DNA sequence affinity chromatography. Visualization of enriched polypeptides revealed simple patterns suggesting that each binding activity was purified. Two of the purified proteins, alpha-CP1 and alpha-CP2, have been shown previously to interact with distinct binding sites that overlap in the alpha-globin CCAAT box. Affinity purification of alpha-CP1 revealed seven polypeptides with Mrs raging from 27,000 to 38,000. In contrast, purified alpha-CP2 was made up of a polypeptide doublet with Mrs of 64,000 and 66,000. The third purified binding activity, alpha-IRP, interacted with sequences that formed an inverted repeat (IR) between the alpha-globin CCAAT and TATAA boxes. Affinity-purified alpha-IRP was made up of a single polypeptide with an Mr of 85,000. We confirmed that the purified polypeptides corresponded to alpha-CP1-, alpha-CP2-, and alpha-IRP-binding activities by UV cross-linking experiments (alpha-CP2 and alpha-IRP) or by renaturation of binding activity after elution of polypeptides from sodium dodecyl sulfate-polyacrylamide gels (alpha-CP1 and alpha-CP2). The apparent complexity of the polypeptides accounting for alpha-CP1 binding activity prompted a further physical characterization of this factor. Sedimentation of affinity-purified alpha-CP1 in glycerol gradients containing 100 mM KCl showed that all seven polypeptides migrated as a complex that cosedimented with alpha-CP1-binding activity. In contrast, when sedimented in glycerol gradients containing 500 mM KCl, alpha-CP1 dissociated into at least two components. Under these conditions, alpha-CP1-binding activity was reduced or lost. Activity was reconstituted, however, by combining fractions that were enriched in the two components. These results were confirmed by experiments in which we showed that alpha-CP1-binding activity can be recovered only by combining distinct sets of polypeptides that were isolated and renatured from sodium dodecyl sulfate-polyacrylamide gels. Our results suggest that the seven polypeptides visualized after affinity purification of alpha-CP1 interact to form a heterotypic complex (or set of complexes) required for alpha-CP1-binding activity.     

Pancreatic beta cell-specific transcription of the pdx-1 gene. The role of conserved upstream control regions and their hepatic nuclear factor 3beta sites

To identify potential transactivators of pdx-1, we sequenced approximately 4.5 kilobases of the 5' promoter region of the human and chicken homologs, assuming that sequences conserved with the mouse gene would contain critical cis-regulatory elements. The sequences associated with hypersensitive site 1 (HSS1) represented the principal area of homology within which three conserved subdomains were apparent: area I (-2694 to -2561 base pairs (bp)), area II (-2139 to -1958 bp), and area III (-1879 to -1799 bp). The identities between the mouse and chicken/human genes are very high, ranging from 78 to 89%, although only areas I and III are present within this region in chicken. Pancreatic beta cell-selective expression was shown to be controlled by mouse and human area I or area II, but not area III, from an analysis of pdx-1-driven reporter activity in transfected beta- and non-beta cells. Mutational and functional analyses of conserved hepatic nuclear factor 3 (HNF3)-like sites located within area I and area II demonstrated that activation by these regions was mediated by HNF3beta. To determine if a similar regulatory relationship might exist within the context of the endogenous gene, pdx-1 expression was measured in embryonic stem cells in which one or both alleles of HNF3beta were inactivated. pdx-1 mRNA levels induced upon differentiation to embryoid bodies were down-regulated in homozygous null HNF3beta cells. Together, these results suggest that the conserved sequences represented by areas I and II define the binding sites for factors such as HNF3beta, which control islet beta cell-selective expression of the pdx-1 gene.     

Chlamydia trachomatis elementary bodies possess proteins which bind to eucaryotic cell membranes.

Chlamydia trachomatis proteins were electrophoresed and then transferred to nitrocellulose paper to detect chlamydial proteins which bind to eucaryotic cell membranes. Resolved polypeptides of C. trachomatis serovars J and L2 were reacted with iodinated HeLa cell membranes and autoradiographed. Infectious elementary bodies of both serovars possess 31,000- and 18,000-dalton proteins which bind to HeLa cells. In contrast, noninfectious reticulate bodies do not possess eucaryotic cell-binding proteins. Both proteins are antigenic when reacted with hyperimmune rabbit antisera in immunoblots and antisera raised against the 31,000- and 18,000-dalton proteins are inhibitory to chlamydia-host cell association. In addition, these antisera exhibit neutralizing activity. Our data suggest that these putative chlamydial adhesins play a key role in the early steps of chlamydia-host cell interaction and that antibody directed against them may be protective.     

TGGCA protein is present in erythroid nuclei and binds within the nuclease-hypersensitive sites 5' of the chicken beta H- and beta A-globin genes

The developmentally regulated 5'-flanking DNase-I-hypersensitive site of the chicken beta H-globin gene in nuclei contains a subregion which is resistant to DNase I and which disappears when nuclei are extracted with 0.3 M NaCl, suggesting that there are salt-extractable proteins bound to sequences within this region. The 0.3 M NaCl extract contains two proteins which bind in vitro to these sequences. One of the binding sequences has an inverted repeat very similar to that bound by TGGCA protein. Partially purified TGGCA protein from chicken liver binds to this sequence in vitro giving exactly the same footprint as that obtained with erythroid nuclear proteins. Similarly TGGCA protein binds to an inverted repeat with the beta A-globin 5'-hypersensitive site giving a footprint identical to that obtained with erythroid nuclear protein extracts. From competition footprinting experiments and the electrophoretic mobility of the protein-DNA complex, it is concluded that the erythroid proteins previously described as binding to the beta H- and beta A-globin inverted repeats within the 5'-flanking hypersensitive sites both belong to the TGGCA protein family.