Defining a novel ribonucleotide reductase r1 mRNA cis element that binds to an unique cytoplasmic trans-acting protein.

Ribonucleotide reductase is a highly regulated rate-limiting enzyme activity in DNA synthesis, responsible for reducing ribonucleotides to their deoxyribonucleotide forms. Using 3'-end labeled RNA and band-shift and UV cross-linking analyses, we have identified a cis-element, 5'-CAAACUUC-3', within the 3'-untranslated region of the mammalian ribonucleotide reductase R1 mRNA, which binds a cytoplasmic protein in BALB/c 3T3 mouse cells, to form a 57 kDa RNA-protein complex. Sequence-specific binding was observed, and binding was prevented by several different mutations within the cis-element. We suggest that this cis-trans interaction plays a role in R1 mRNA stability.     

Characterization of a response regulator protein that binds to Anabaena sp. strain L-31 kdp-promoter region

The potassium dependent adenosine triphosphatase (Kdp-ATPase), encoded by the kdp operon, is a potassium uptake system found in several prokaryotes. The cyanobacterium Anabaena sp. strain L-31 shows the presence of two kdp operons (kdp1 and kdp2) of which the kdp2 is predominantly induced in response to potassium limitation or desiccation stress. Two ORFs, encoding a sensor kinase and a response regulator, respectively, were identified upstream of the kdp2 operon in Anabaena sp. strain L-31. The response regulator protein, tagged with 6 additional C-terminal histidine residues, was over-expressed in Escherichia coli and purified by affinity chromatography. Employing the protein-specific antiserum, the response regulator protein was detected in Anabaena L-31 cytosolic fractions. The response regulator protein bound to the kdp2 promoter region with higher affinity than kdp1 promoter region. Addition of acetyl phosphate increased the ability of the protein to bind to kdp2 promoter region by several fold, suggesting a phosphorylation-dependent binding of response regulator to the promoter. These data implicate the response regulator protein in regulation of kdp2 expression in Anabaena sp. strain L-31.     

Sap1, a protein that binds to sequences required for mating-type switching, is essential for viability in Schizosaccharomyces pombe.

The pattern of mating-type switching in cell pedigrees of the fission yeast Schizosaccharomyces pombe is dictated by the inheritance of specific DNA chains at the mating-type locus (mat1). The recombination event essential for switching is initiated by a site-specific double-strand break at mat1. The switch-activating protein, Sap1, binds in vitro to a mat1 cis-acting site that was shown earlier to be essential for efficient mating-type switching. We isolated the sap1 gene by using oligonucleotides corresponding to the amino acid sequence of purified Sap1 protein. The sequence of that gene predicted a 30-kDa protein with no significant homology to other canonical DNA-binding protein motifs. To facilitate its biochemical characterization, Sap1 was expressed in Escherichia coli. The protein expressed in bacteria displayed the same DNA-binding specificities as the protein purified from S. pombe. Interestingly, analysis of a sap1 null mutation showed that the gene is essential for growth even in a strain in which mating-type switching is prohibited because of a defect in generation of the double-strand break. Thus, the sap1 gene product implicated in mating-type switching is shown to be essential for cell viability.     

Characterization of a cDNA encoding a novel heat-shock protein that binds to calmodulin.

A cDNA clone (pTCB48) encoding a calmodulin-binding protein was isolated by screening a lambda ZAPII cDNA expression library constructed from cell cultures of heat-shocked tobacco (Nicotiana tabacum L. cv Wisconsin-38) with metabolically labeled [35S]calmodulin. Calmodulin gel overlay analysis indicated that pTCB48 generated major peptides of 53, 36, and 22 kD and two minor peptides of 37 and 16 kD that bound calmodulin in a Ca(2+)-dependent manner. Deletion analysis of pTCB48 indicated that these and the minor calmodulin-binding proteins resulted from the insert. A probe made from the cDNA insert recognized two bands with sizes of 2.1 and 1.8 kb on northern blot analysis. Both species of RNAs were undetectable in the control and were induced after 15 min of heat-shock treatment at 38 degrees C. The intensity of the two bands reached maximum after 1.5 h of heat-shock treatment. The cDNA clone was not full length; however, the complete sequence was determined by 5' rapid amplification of cDNA ends using nested antisense primers. The full-length cDNA contains 1648 bp and a single open reading frame of 1347 bp and is expected to encode a protein of approximately 50 kD. No significant homology with other reported genes and proteins was found. Structural predictions, deletion analysis, and gel overlay analysis suggested that the calmodulin-binding domain was a basic amphiphilic alpha-helix near the C terminus of the protein. The strong induction of the mRNA for this protein suggests a role for Ca2+/calmodulin-mediated process in the heat-shock response.     

An IL-2 response element in the human IL-2 receptor alpha chain promoter is a composite element that binds Stat5, Elf-1, HMG-I(Y) and a GATA family protein.

Expression of the human interleukin-2 (IL-2) receptor alpha chain gene is potently upregulated by its own ligand, IL-2. In this study, we characterize an essential upstream IL-2 response element that contains both consensus and non-consensus GAS motifs, two putative Ets binding sites (EBS), one of which overlaps the consensus GAS motif, and a GATA motif, which overlaps the non-consensus GAS motif. We demonstrate that although the individual components of this element do not respond to IL-2, together they form a composite element capable of conferring IL-2 responsiveness to a heterologous promoter. Multiple factors including Stat5, Elf-1, HMG-I(Y) and GATA family proteins bind to the IL-2 response element and mutation of any one of these binding sites diminishes the activity of this element. An unidentified Ets family protein binds to the EBS overlapping the consensus GAS motif and appears to negatively regulate the human IL-2R alpha promoter. Thus, IL-2-induced IL-2R alpha promoter activity requires a complex upstream element, which appears to contain binding sites for both positive and negative regulatory factors.     

Purification and characterization of a protein from HeLa cells that binds with high affinity to the estrogen response element, GGTCAGCGTGACC

A non-histone protein, NHP1, that binds with high affinity to the estrogen response element (ERE), GGTCAGCGTGACC, has been purified approximately 45,000-fold from HeLa cells by a combination of chromatography on Sephacryl S-300, heparin-Sepharose, Mono Q (FPLC), and sequence-specific oligonucleotide-Sepharose. The native protein has a molecular weight of 170,000 and is composed of two polypeptides of 85 and 75 kDa. The two polypeptides are different as judged by peptide mapping, and only the 85-kDa polypeptide can be cross-linked to the bromodeoxyuridine-substituted synthetic ERE by UV irradiation. The native protein binds to the ERE with an apparent KD of 1 x 10(-11) M and has a pI of 5. The contact points of the protein with individual bases of the ERE have been determined by using partially depurinated and depyrimidinated synthetic oligonucleotides. The strongest contact points of NHP1 with the ERE are 5'AGCG3' in the center of the palindrome and differ from those of the estrogen receptor. NHP1 appears to produce specific nicks around the central CpGs of the ERE, thereby suggesting that it may play a role in active demethylation of mCpGs.     

Identification and characterization of SEB, a novel protein that binds to the acute undifferentiated leukemia-associated protein SET.

SET, the translocation breakpoint-encoded protein in acute undifferentiated leukemia (AUL), is a 39-kDa nuclear phosphoprotein and has an inhibitory activity for protein phosphatase 2A (PP2A). SET is fused to a putative oncoprotein, CAN/NUP214, in AUL and is thought to play a key role in leukemogenesis by its nuclear localization, protein-protein interactions and PP2A inhibitory activity. Here, we describe the isolation and characterization of a novel cDNA encoding a protein with 1542 amino-acid residues that specifically interacts in a yeast two-hybrid system as well as in human cells with SET. This new protein, which we name SEB (SET-binding protein), is identified as a 170-kDa protein by immunoprecipitation with a specific antibody and is localized predominantly in the nucleus. SEB1238--1434 is determined as a SET-binding region that specifically binds to SET182--223. SEB also has an oncoprotein Ski homologous region (amino acids 654--858), six PEST sequences and three sequential PPLPPPPP repeats at the C-terminus. SEB mRNA is expressed ubiquitously in all human adult tissues and cells examined. The SEB gene locus is assigned to the chromosome 18q21.1 that contains candidate tumor suppressor genes associated with deletions in cancer and leukemia. Although the function of SEB is not known, we propose that SEB plays a key role in the mechanism of SET-related leukemogenesis and tumorigenesis, perhaps by suppressing SET function or by regulating the transforming activity of Ski in the nucleus.     

Mini-F protein that binds to a unique region for partition of mini-F plasmid DNA.

A mini-F-coded protein, named F2 protein, binds specifically to mini-F DNA. This protein has a molecular weight of 37,000 and is coded by the A2 segment of the mini-F genome (47.3 to 49.4 kilobases on the F coordinate map). The binding site is located also in the A2 segment of mini-F. This binding site is lost by spontaneous deletion when the A2 segment alone, but not A2 together with its neighboring segment, is cloned in a multicopy plasmid pBR322. These data are discussed in connection with incompatibility and plasmid stability.     

A novel isoform of Cbl-associated protein that binds protein kinase A

A novel isoform of Cbl-associated protein (CAP) was identified in a yeast two-hybrid screen for A-kinase anchoring proteins expressed in the heart. CAP is a scaffold protein implicated in insulin signaling and cytoskeleton regulation. The protein kinase A binding site is encoded by a previously unidentified, alternatively spliced exon.     

A novel membrane glycoprotein, SHPS-1, that binds the SH2-domain-containing protein tyrosine phosphatase SHP-2 in response to mitogens and cell adhesion.

Protein tyrosine phosphatases (PTPases), such as SHP-1 and SHP-2, that contain Src homology 2 (SH2) domains play important roles in growth factor and cytokine signal transduction pathways. A protein of approximately 115 to 120 kDa that interacts with SHP-1 and SHP-2 was purified from v-src-transformed rat fibroblasts (SR-3Y1 cells), and the corresponding cDNA was cloned. The predicted amino acid sequence of the encoded protein, termed SHPS-1 (SHP substrate 1), suggests that it is a glycosylated receptor-like protein with three immunoglobulin-like domains in its extracellular region and four YXX(L/V/I) motifs, potential tyrosine phosphorylation and SH2-domain binding sites, in its cytoplasmic region. Various mitogens, including serum, insulin, and lysophosphatidic acid, or cell adhesion induced tyrosine phosphorylation of SHPS-1 and its subsequent association with SHP-2 in cultured cells. Thus, SHPS-1 may be a direct substrate for both tyrosine kinases, such as the insulin receptor kinase or Src, and a specific docking protein for SH2-domain-containing PTPases. In addition, we suggest that SHPS-1 may be a potential substrate for SHP-2 and may function in both growth factor- and cell adhesion-induced cell signaling.