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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous experiments have shown that the minimal promoters required for function of the squid SL20-1 and SL11 crystallin genes in transfected rabbit lens epithelial cells contain an overlapping AP-1/antioxidant responsive element (ARE) upstream of the TATA box. This region resembles the PL-1 and PL-2 elements of the chicken beta B1-crystallin promoter which are essential for promoter function in transfected primary chicken lens epithelial cells. Here we demonstrate by site-directed mutagenesis that the AP-1/ARE sequence is essential for activity of the squid SL20-1 and SL11 promoters in transfected embryonic chicken lens cells and fibroblasts. Promoter activity was higher in transfected lens cells than in fibroblasts. Electrophoretic mobility shift and DNase protection experiments demonstrated the formation of numerous complexes between nuclear proteins of the embryonic chicken lens and the AP-1/ARE sequences of the squid SL20-1 and SL11 crystallin promoters. One of these complexes comigrated and cross-competed with that formed with the PL-1 element of the chicken beta B1-crystallin promoter. This complex formed with nuclear extracts from the lens, heart, brain, and skeletal muscle of embryonic chickens and was eliminated by competition with a consensus AP-1 sequence. The nonfunctional mutant AP-1/ARE sequences did not compete for complex formation. These data raise the intriguing possibility that entirely different, nonhomologous crystallin genes of the chicken and squid have convergently evolved a similar cis-acting regulatory element (AP-1/ARE) for high expression in the lens.
J Mol Evol 1994 Aug
PMID:Convergent evolution of crystallin gene regulation in squid and chicken: the AP-1/ARE connection. 793 77

The abundance of crystallins (> 80% of the soluble protein) in the ocular lens provides advantageous markers for selective gene expression during cellular differentiation. Here we show by functional and protein-DNA binding experiments that the chicken alpha A-crystallin gene is regulated by at least five control elements located at sites A (-148 to -139), B (-138 to -132), C (-128 to -101), D (-102 to -93), and E (-56 to -41). Factors interacting with these sites were characterized immunologically and by gel mobility shift experiments. The results are interpreted with the following model. Site A binds USF and is part of a composite element with site B. Site B binds CREB and/or CREM to enhance expression in the lens and binds an AP-1 complex including CREB, Fra2 and/or JunD which interacts with USF on site A to repress expression in fibroblasts. Sites C and E (which is conserved across species) bind Pax-6 in the lens to stimulate alpha A-crystallin promoter activity. These experiments provide the first direct data that Pax-6 contributes to the lens-specific expression of a crystallin gene. Site D (-104 to -93) binds USF and is a negative element. Thus, the data indicate that USF, CREB and/or CREM (or AP-1 factors), and Pax-6 bind a complex array of positive and negative cis-acting elements of the chicken alpha A-crystallin gene to control high expression in the lens and repression in fibroblasts.
Mol Cell Biol 1994 Nov
PMID:A complex array of positive and negative elements regulates the chicken alpha A-crystallin gene: involvement of Pax-6, USF, CREB and/or CREM, and AP-1 proteins. 793 50

A duck delta II crystallin mutant, where histidine 178 has been replaced by an aspartic acid residue, has been purified from a bacterial expression system and subsequently crystallized. The crystals grow as flat plates, with unit cell dimensions a = 94.1 A, b = 99.9 A, c = 108.7 A and beta = 102 degrees. The crystals exhibit the symmetry of space group P2(1) and diffract to a minimum d-spacing of 2.8 A resolution. On the basis of density calculation four monomers (one tetramer) are estimated to be present in the asymmetric unit (Vm = 2.5 A3/Da). Self-rotation functions clearly show the presence of 222 non-crystallographic symmetry.
J Mol Biol 1994 Nov 11
PMID:Crystallization and preliminary X-ray analysis of a mutant duck delta II crystallin. 796 10

The locus for the hereditary human Coppock-like cataract (CCL) is closely linked to a particular combination of polymorphic TaqI sites within the human gamma-crystallin gene cluster. Mapping of these sites shows that they define a 15 kb region encompassing the gamma D and psi gamma E gene. The gamma D and the psi gamma E gene were cloned from the CCL chromosome and characterized. The gamma D gene was functionally equivalent to its allele cloned from a wild-type chromosome. The CCL psi gamma E gene contains a cluster of sequence changes within and around its TATA box. Together these cause a ten-fold increase in the activity of the psi gamma E promoter, raising the level of expression of this gene to 30% of that of the gamma D gene. The predicted protein product of the psi gamma E gene is a 6 kD N-terminal gamma-crystallin fragment. Reactivation of the psi gamma E gene and concomitant overexpression of the gamma-crystallin fragment could be the cause of the Coppock-like cataract.
Hum Mol Genet 1994 Feb
PMID:Activation of the gamma E-crystallin pseudogene in the human hereditary Coppock-like cataract. 800 95

The repressor delta EF1 was discovered by its action on the DC5 fragment of the lens-specific delta 1-crystallin enhancer. C-proximal zinc fingers of delta EF1 were found responsible for binding to the DC5 fragment and had specificity to CACCT as revealed by selection of high-affinity binding sequences from a random oligonucleotide pool. CACCT is present not only in DC5 but also in the E2 box (CACCTG) elements which are the binding sites of various basic helix-loop-helix activators and also the target of an unidentified repressor, raising the possibility that delta EF1 accounts for the E2 box repressor activity. delta EF1 competed with E47 for binding to an E2 box sequence in vitro. In lymphoid cells, endogenous delta EF1 activity as a repressor was detectable, and exogenous delta EF1 repressed immunoglobulin kappa enhancer by binding to the kappa E2 site. Moreover, delta EF1 repressed MyoD-dependent activation of the muscle creatine kinase enhancer and MyoD-induced myogenesis of 10T1/2 cells. Thus, delta EF1 counteracts basic helix-loop-helix activators through binding site competition and fulfills the conditions of the E2 box repressor. In embryonic tissues, the most prominent site of delta EF1 expression is the myotome. Myotomal expression as well as the above results argues for a significant contribution of delta EF1 in regulation of embryonic myogenesis through the modulation of the actions of MyoD family proteins.
Mol Cell Biol 1994 Sep
PMID:The delta-crystallin enhancer-binding protein delta EF1 is a repressor of E2-box-mediated gene activation. 806 5

A novel enzyme with quinone oxidoreductase activity has undergone gene recruitment in certain mammals, acquiring a second function as the lens structural protein zeta-crystallin. Here we show that recruitment of this enzyme crystallin can be explained by the lens specificity of an alternative promoter which does not require host-specific factors. The strong lens preference of this promoter is apparent in both cultured cell transfections and in transgenic mice. While proximal regions of the promoter have some activity in the brain of transgenic mice this is abolished by the addition of more distal regions. The minimal active promoter is differentially footprinted by extracts from lens and non-lens cells. Deletion within the major region footprinted in lens, ZPE (zeta protected element), abolishes promoter function. This is the first example of a lens-specific promoter in an enzyme crystallin gene and the first demonstration of gene recruitment by this mechanism.
J Mol Biol 1994 Feb 25
PMID:Zeta-crystallin: a lens-specific promoter and the gene recruitment of an enzyme as a crystallin. 811 84

The C-terminal domain and tail, which is the most conserved region of the alpha-crystallin/small heat shock protein (HSP) family, was obtained from rat alpha A-crystallin, bovine alpha B-crystallin and mouse HSP25. All three domains have primarily beta-sheet conformation and less than 10% of alpha-helix, like the proteins from which they are derived. Whereas the C-terminal part of alpha A-crystallin forms dimers or tetramers, the corresponding regions of alpha B-crystallin and HSP25 form larger aggregates. The heat-protective activity, recently described for the alpha-crystallin/small HSP family, is not retained in the C-terminal domain and tail. In the course of this study some differences with the previously published sequence of HSP25 were observed, and a revision is proposed.
Mol Biol Rep 1993 Oct
PMID:Comparison of the homologous carboxy-terminal domain and tail of alpha-crystallin and small heat shock protein. 811 88

beta-Crystallins are oligomeric eye lens proteins that are related to monomeric gamma-crystallins. The main sequence difference between the two families is the presence of sequence extensions in the beta-crystallins. A major question concerns the role that these extensions play in mediating interactions at the high protein concentrations found in the lens. The predominant beta-crystallin polypeptide, beta B2, can be crystallized in two different space groups, I222 and C222. The I222 crystal structure revealed that the protein packed as a tetramer with perfect 222 symmetry but that the extensions were disordered. The X-ray structure of the C222 lattice of beta B2 has now been refined at 3.3 A, the structure analysed and compared with the I222 lattice. The protein is also a tetramer with 222 symmetry in the C222 lattice but differs in that parts of the N-terminal extensions have been visualized. In the asymmetric unit of the C222 lattice there are four subunits, each comprising a single polypeptide chain, in which certain flexible loops in the N-terminal domains and the N-terminal extensions have various conformations. The tetramers in the C222 lattice are more tightly packed than in the I222 form. Analysis of the tetramer contacts shows that the sites of interaction break the 222 symmetry of the tetramers. The N-terminal extensions play a major role in directing interactions between tetramers. One of the N-terminal extensions interacts with a hydrophobic patch on the N-terminal domain of another tetramer. These crystallographic observations obtained over a physiological concentration range indicate how, in beta-crystallin oligomers, the N-terminal extensions of beta B2 can switch from interacting with water to interacting with protein depending on their relative concentrations. This could be useful in maintaining a gradient of refractive index.
J Mol Biol 1994 Mar 04
PMID:Close packing of an oligomeric eye lens beta-crystallin induces loss of symmetry and ordering of sequence extensions. 812 Sep

Proteins of the human heart muscle were studied using modified two-dimensional electrophoresis. After separation, proteins were electroblotted onto Immobilon P membranes and several protein spots were used for microsequencing analysis. In most cases the proteins analyzed have blocked N-terminal amino acids. In order to study the primary structure of these proteins, hydrolysis in situ by trypsin followed by reversed-phase HPLC and microsequencing of the resulting peptides were performed. Four protein were identified in 8 analyzed fractions, specifically myosin light chain 1 (MLCl-V/sB), fatty-acid binding protein (heart isoform), alpha (B)-crystallin and alpha-tropomyosin. Amino acid sequences of two proteins were not found among human amino acid sequences collected in SWISSPROT bank (v. 21).
Mol Biol (Mosk)
PMID:[Search for new products of gene expression in human cardiac muscle. Microsequencing of proteins after two-dimensional electrophoresis]. 814 54

zeta-Crystallin is a novel nicotinamide adenine dinucleotide phosphate:quinone reductase, present at enzymatic levels in various tissues of different species, which is highly expressed in the lens of some hystricomorph rodents and camelids. We report here the complementary DNA (cDNA) cloning of zeta-crystallin from liver libraries in guinea pig (Cavia porcellus), where zeta-crystallin is highly expressed in the lens, and in the laboratory mouse (Mus musculus), where expression in the lens occurs only at enzymatic levels. A 5' untranslated sequence different from the one previously reported for the guinea pig lens cDNA was found in these clones. We also report the isolation of genomic clones including the complete guinea pig zeta-crystallin gene and the 5' region of this gene in mouse. These results show the presence of two promoters in the guinea pig zeta-crystallin gene, one responsible for expression at enzymatic levels and the other responsible for the high expression in the lens. The guinea pig lens promoter is not present in the mouse gene. This is the first example in which the recruitment of an enzyme as a lens crystallin can be explained by the acquisition of an alternative lens-specific promoter.
Mol Biol Evol 1994 Mar
PMID:Comparative analysis of the zeta-crystallin/quinone reductase gene in guinea pig and mouse. 817 Mar 70


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