| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1016/0092-8674(89)90956-2 |
| P698 | PubMed publication ID | 2649248 |
| P2093 | author name string | Piatigorsky J | |
| Wistow GJ | |||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 197-199 | |
| P577 | publication date | 1989-04-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | Enzyme/crystallins: gene sharing as an evolutionary strategy | |
| P478 | volume | 57 |
| Q53559786 | A comparative genomic analysis of the small heat shock proteins in Caenorhabditis elegans and briggsae. |
| Q41081412 | A frameshift mutation in the gamma E-crystallin gene of the Elo mouse |
| Q41815933 | A membrane-bound form of glutamate dehydrogenase possesses an ATP-dependent high-affinity microtubule-binding activity |
| Q46353561 | A novel NADPH:diamide oxidoreductase activity in arabidopsis thaliana P1 zeta-crystallin |
| Q37102290 | ALDH16A1 is a novel non-catalytic enzyme that may be involved in the etiology of gout via protein-protein interactions with HPRT1. |
| Q45204036 | Abundant corneal gelsolin in Zebrafish and the 'four-eyed' fish, Anableps anableps: possible analogy with multifunctional lens crystallins |
| Q42050430 | Accumulation of alpha B-crystallin in central nervous system glia and neurons in pathologic conditions |
| Q34026132 | Aldehyde dehydrogenases: from eye crystallins to metabolic disease and cancer stem cells |
| Q37326897 | Aldose reductase inhibitors and cataract |
| Q47721742 | Aldose reductase: a window to the treatment of diabetic complications? |
| Q36684058 | Alpha B crystallin accumulation is a specific response to Ha-ras and v-mos oncogene expression in mouse NIH 3T3 fibroblasts |
| Q37494057 | Alpha B-crystallin is a small heat shock protein |
| Q35156128 | Alpha-crystallin/small heat shock protein has autokinase activity |
| Q36423371 | Amy63, a novel type of marine bacterial multifunctional enzyme possessing amylase, agarase and carrageenase activities. |
| Q38268468 | An introduction to protein moonlighting. |
| Q34775132 | Argininosuccinate lyase deficiency-argininosuccinic aciduria and beyond |
| Q38093162 | Assembly chaperones: a perspective |
| Q41773831 | Biochemical characterization and kinetic analysis of duck delta-crystallin with endogenous argininosuccinate lyase activity |
| Q33527628 | Biosynthetic threonine deaminase gene of tomato: isolation, structure, and upregulation in floral organs |
| Q37788016 | Building the developmental oculome: systems biology in vertebrate eye development and disease |
| Q37597693 | Chapter 1: The physiological role of lysyl tRNA synthetase in the immune system. |
| Q36959388 | Chicken beta B1-crystallin gene expression: presence of conserved functional polyomavirus enhancer-like and octamer binding-like promoter elements found in non-lens genes |
| Q38550337 | Cloning of the alphaA-crystallin genes of a blind cave form and the epigean form of Astyanax fasciatus: a comparative analysis of structure, expression and evolutionary conservation |
| Q36974771 | Conceptual bases for quantifying the role of the environment on gene evolution: the participation of positive selection and neutral evolution |
| Q52215476 | Convergent evolution of crystallin gene regulation in squid and chicken: the AP-1/ARE connection. |
| Q34210360 | Crystallin genes: specialization by changes in gene regulation may precede gene duplication |
| Q33268599 | Crystallins of the octopus lens. Recruitment from detoxification enzymes |
| Q59407864 | Crystallization and preliminary X-ray crystallographic analysis of NADPH: azodicarbonyl/quinone oxidoreductase, a plant ζ-crystallin |
| Q28661079 | Deducing protein function by forensic integrative cell biology |
| Q67909629 | Degenerate oligonucleotide sequence-directed cross-species PCR cloning of the BCP 54/ALDH 3 cDNA: priming from inverted repeats and formation of tandem primer arrays |
| Q52227812 | Development and tissue-specific distribution of mouse small heat shock protein hsp25. |
| Q47322455 | DextMP: deep dive into text for predicting moonlighting proteins |
| Q48341969 | Differential expression of the two delta-crystallin genes in lens and non-lens tissues: shift favoring delta 2 expression from embryonic to adult chickens |
| Q35038319 | Differential expression patterns and developmental roles of duplicated scinderin-like genes in zebrafish |
| Q52167724 | Differential modulation of alpha, beta and gamma enolase isoforms in regenerating mouse skeletal muscle. |
| Q88175537 | Diverse Evolutionary Origins and Mechanisms of Lens Regeneration |
| Q40881227 | ENO1 gene product binds to the c-myc promoter and acts as a transcriptional repressor: relationship with Myc promoter-binding protein 1 (MBP-1). |
| Q42827917 | Endo-beta-D-glucuronidase (heparanase) activity of heat-shock protein/tumour rejection antigen gp96. |
| Q52169861 | Enhancer-independent promoter activity of the mouse alphaB-crystallin/small heat shock protein gene in the lens and cornea of transgenic mice. |
| Q34291286 | Enzymes on microbial pathogens and Trichomonas vaginalis: molecular mimicry and functional diversity |
| Q47860016 | Evidence for gelsolin as a corneal crystallin in zebrafish |
| Q33747549 | Evidence for neutral and selective processes in the recruitment of enzyme-crystallins in avian lenses |
| Q44154760 | Evidence for nuclear localisation of two stage-specific isoenzymes of enolase in Toxoplasma gondii correlates with active parasite replication |
| Q57685946 | Evolution AfterandBefore Gene Duplication? |
| Q34024707 | Evolution of a protein superfamily: relationships between vertebrate lens crystallins and microorganism dormancy proteins |
| Q30421817 | Evolutionary dynamics on protein bi-stability landscapes can potentially resolve adaptive conflicts |
| Q45996024 | Evolutionary history of the enolase gene family. |
| Q73602519 | Evolutionary relationships of the metazoan beta gamma-crystallins, including that from the marine sponge Geodia cydonium |
| Q54607709 | Exploring the role of histidines in the catalytic activity of duck delta-crystallins using site-directed mutagenesis. |
| Q36730706 | Expression of the murine alpha B-crystallin gene in lens and skeletal muscle: identification of a muscle-preferred enhancer |
| Q36232367 | Expression of the murine small heat shock proteins hsp 25 and alpha B crystallin in the absence of stress |
| Q37589950 | Eye evolution: common use and independent recruitment of genetic components. |
| Q72356632 | Eye-lens proteins: structure, superstructure, stability, genetics |
| Q56918719 | From genome sequences to protein function |
| Q35108599 | Gecko iota-crystallin: how cellular retinol-binding protein became an eye lens ultraviolet filter |
| Q33928603 | Gene and context: integrative approaches to genome analysis |
| Q36439810 | Gene functional trade-offs and the evolution of pleiotropy. |
| Q37608435 | Gene-scrambling mutagenesis: generation and analysis of insertional mutations in the alginate regulatory region of Pseudomonas aeruginosa |
| Q35799076 | Genome-Wide Detection and Analysis of Multifunctional Genes |
| Q35018620 | Genome-scale identification and characterization of moonlighting proteins |
| Q48068828 | Glutathione S-transferase and S-crystallins of cephalopods: evolution from active enzyme to lens-refractive proteins |
| Q73923958 | Guanidine hydrochloride induced reversible dissociation and denaturation of duck delta2-crystallin |
| Q40770861 | How are non-lenticular cells ready for transdifferentiation? |
| Q39344105 | How exaptations facilitated photosensory evolution: Seeing the light by accident |
| Q34089406 | How long did it take for life to begin and evolve to cyanobacteria? |
| Q37586285 | Identification of a lens-specific regulatory region (LSR) of the murine alpha B-crystallin gene |
| Q35962922 | Innovation and robustness in complex regulatory gene networks |
| Q89964439 | Intracellular Chloride Channels: Novel Biomarkers in Diseases |
| Q41028490 | Involvement of retinoic acid/retinoid receptors in the regulation of murine alphaB-crystallin/small heat shock protein gene expression in the lens |
| Q72124485 | Isolation and characterization of octopus hepatopancreatic glutathione S-transferase. Comparison of digestive gland enzyme with lens S-crystallin |
| Q33947698 | J3-crystallin of the jellyfish lens: similarity to saposins |
| Q36676550 | Junction-forming aquaporins. |
| Q38574368 | Lens Biology and Biochemistry |
| Q46441816 | Lens alpha-crystallin: chaperone-like properties |
| Q38563632 | Lens crystallins of invertebrates--diversity and recruitment from detoxification enzymes and novel proteins |
| Q38704958 | Lens protein expression in mammals: taxon-specificity and the recruitment of crystallins |
| Q37280683 | Lens proteins and their genes |
| Q40912479 | Lens-preferred activity of chicken δ1- and δ2-crystallin enhancers in transgenic mice and evidence for retinoic acid-responsive regulation of the δ1-crystallin gene |
| Q33367889 | Lily cofactor-independent phosphoglycerate mutase: purification, partial sequencing, and immunolocalization |
| Q28580084 | Lipocalin-type prostaglandin D synthase (beta-trace) is located in pigment epithelial cells of rat retina and accumulates within interphotoreceptor matrix |
| Q36401721 | Localization of sequences controlling the spatial, temporal, and sex-specific expression of the esterase 6 locus in Drosophila melanogaster adults |
| Q93087915 | Medical implications of protein moonlighting |
| Q43165436 | Molecular Evidence for Convergence and Parallelism in Evolution of Complex Brains of Cephalopod Molluscs: Insights from Visual Systems. |
| Q33857661 | Molecular analysis of evolutionary changes in the expression of Drosophila esterases |
| Q36627002 | Molecular evolution of enzymes involved in the arachidonic acid cascade |
| Q42063845 | MoonProt: a database for proteins that are known to moonlight |
| Q27691291 | Moonlighting characteristics of G protein-coupled receptors: focus on receptor heteromers and relevance for neurodegeneration. |
| Q38137988 | Moonlighting microtubule-associated proteins: regulatory functions by day and pathological functions at night |
| Q58557206 | Moonlighting nuclear pore proteins: tissue-specific nucleoporin function in health and disease |
| Q40954585 | Multifunctional proteins in Tetrahymena: 14-nm filament protein/citrate synthase and translation elongation factor-1 alpha. |
| Q37661897 | MultitaskProtDB: a database of multitasking proteins |
| Q28571660 | Nuclear location of phosphoglycerate mutase BB isozyme in rat tissues |
| Q47632172 | Nucleotide binding by the synapse associated protein SAP90. |
| Q38703351 | Omega -crystallin of the scallop lens. A dimeric aldehyde dehydrogenase class 1/2 enzyme-crystallin. |
| Q73676940 | On the nature of hereditary cataract in strain 13/N guinea pigs |
| Q60091094 | One in the eye |
| Q40693937 | Orientation-dependent influence of an intergenic enhancer on the promoter activity of the divergently transcribed mouse Shsp/alpha B-crystallin and Mkbp/HspB2 genes |
| Q28142931 | Pax 6: mastering eye morphogenesis and eye evolution |
| Q34358084 | Pax-6 is essential for lens-specific expression of zeta-crystallin |
| Q50699185 | Phylogeny of the alpha-crystallin-related heat-shock proteins |
| Q28545748 | Physical Features of Intracellular Proteins that Moonlight on the Cell Surface |
| Q34414073 | Physiological expression of lens α-, β-, and γ-crystallins in murine and human corneas |
| Q36137498 | Protein dynamics and the diversity of an antibody response. |
| Q35785553 | Protein interactions in the calf eye lens: interactions between beta-crystallins are repulsive whereas in gamma-crystallins they are attractive |
| Q38268466 | Protein moonlighting: a new factor in biology and medicine |
| Q40242744 | Proteins in unexpected locations |
| Q33367343 | Puzzle of crystallin diversity in eye lenses |
| Q34330251 | Recruitment of enzymes and stress proteins as lens crystallins. |
| Q24598849 | Regulation of the mouse alpha A-crystallin gene: isolation of a cDNA encoding a protein that binds to a cis sequence motif shared with the major histocompatibility complex class I gene and other genes |
| Q36556539 | Regulation of the murine alpha B-crystallin/small heat shock protein gene in cardiac muscle |
| Q30306252 | Sequential activation of transcription factors in lens induction |
| Q28584751 | Sox1 directly regulates the gamma-crystallin genes and is essential for lens development in mice |
| Q28654428 | Spaces of the possible: universal Darwinism and the wall between technological and biological innovation |
| Q33546271 | Stability and folding of domain proteins |
| Q38295322 | Structure and expression of the scallop Omega-crystallin gene. Evidence for convergent evolution of promoter sequences |
| Q34323303 | Structure and modifications of the junior chaperone alpha-crystallin. From lens transparency to molecular pathology |
| Q35150586 | Sulfated glycoprotein 2: new relationships of this multifunctional protein to neurodegeneration |
| Q36087088 | Systems Pharmacology Links GPCRs with Retinal Degenerative Disorders |
| Q37599691 | Taxon-specific recruitment of enzymes as major soluble proteins in the corneal epithelium of three mammals, chicken, and squid |
| Q45246209 | Temporal regulation of six crystallin transcripts during mouse lens development |
| Q38821997 | The C-terminal Domain Supports a Novel Function for CETPI as a New Plasma Lipopolysaccharide-Binding Protein |
| Q39209522 | The Evolving Definition of the Term "Gene". |
| Q26741286 | The Expanding Landscape of Moonlighting Proteins in Yeasts |
| Q40394819 | The Stable Interaction Between Signal Peptidase LepB of Escherichia coli and Nuclease Bacteriocins Promotes Toxin Entry into the Cytoplasm |
| Q35604553 | The cellular and molecular bases of vertebrate lens regeneration |
| Q28575533 | The cooperation between two silencers creates an enhancer element that controls both the lens-preferred and the differentiation stage-specific expression of the rat beta B2-crystallin gene |
| Q38217988 | The evolution of vision |
| Q28587308 | The housekeeping gene xanthine oxidoreductase is necessary for milk fat droplet enveloping and secretion: gene sharing in the lactating mammary gland |
| Q37425251 | The interaction of Glu294 at the subunit interface is important for the activity and stability of goose delta-crystallin |
| Q48376576 | The lens protein alpha-B-crystallin of the blind subterranean mole-rat: high homology with sighted mammals |
| Q35806883 | The major histocompatibility complex origin |
| Q36826328 | The murine alpha B-crystallin/small heat shock protein enhancer: identification of alpha BE-1, alpha BE-2, alpha BE-3, and MRF control elements |
| Q34163946 | The twelfth Frederick H. Verhoeff Lecture: gene sharing in the visual system. |
| Q42678936 | Three genes encode distinct AP33 proteins involved in Trichomonas vaginalis cytoadherence |
| Q45961232 | Tissue-nonspecific alkaline phosphatase participates in the establishment and growth of feather germs in embryonic chick skin cultures. |
| Q52207082 | Transient expression of glutamate decarboxylase and gamma-amino butyric acid in embryonic lens fibers of the rat. |
| Q42646488 | Transketolase is a major protein in the mouse cornea |
| Q42827903 | Tumour rejection antigens of the hsp90 family (gp96) closely resemble tumour-associated heparanase enzymes |
| Q47636195 | VAT-1 from Torpedo is a membranous homologue of zeta crystallin |
| Q28146227 | Vaults and telomerase share a common subunit, TEP1 |
| Q28288644 | Vertebrate lens alpha-crystallins are modified by O-linked N-acetylglucosamine |
| Q44975719 | Vertebrate-like betagamma-crystallins in the ocular lenses of a copepod |
| Q30376394 | Why study moonlighting proteins? |
| Q47897014 | alpha-Crystallin quaternary structure and interactive properties control eye lens transparency |
| Q34622365 | γS-crystallin proteins from the Antarctic nototheniid toothfish: a model system for investigating differential resistance to chemical and thermal denaturation |
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