Ver registro no DEDALUS
Exportar registro bibliográfico

Metrics


Metrics:

Transcription of the Neurospora crassa 70-kDa class heat shock protein genes in modulated in response to extracellular pH changes (2009)

  • Authors:
  • USP affiliated authors: ROSSI FILHO, ANTONIO - FMRP ; ROSSI, NILCE MARIA MARTINEZ - FMRP
  • USP Schools: FMRP; FMRP
  • DOI: 10.1007/s12192-009-0131-z
  • Subjects: FUNGOS; PROTEÍNAS; GENÉTICA
  • Language: Inglês
  • Imprenta:
  • Source:
  • Acesso online ao documento

    DOI or search this record in
    Informações sobre o DOI: 10.1007/s12192-009-0131-z (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo é de acesso aberto
    • URL de acesso aberto
    • Cor do Acesso Aberto: green
    Informações sobre o Citescore
  • Título: Cell Stress and Chaperones

    ISSN: 1355-8145

    Citescore - 2017: 2.61

    SJR - 2017: 0.987

    SNIP - 2017: 0.854


  • Exemplares físicos disponíveis nas Bibliotecas da USP
    BibliotecaCód. de barrasNúm. de chamada
    FMRP1819220pcd 1819231 estantes deslizantes
    How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      SQUINA, Fabio M.; LEAL, Juliana; CIPRIANO, Vivian T. F.; MARTINEZ-ROSSI, Nilce Maria; ROSSI, Antonio. Transcription of the Neurospora crassa 70-kDa class heat shock protein genes in modulated in response to extracellular pH changes. Cell Stress and Chaperones, Dordrecht, v. 15, n. 2, p. 225-231, 2009. DOI: 10.1007/s12192-009-0131-z.
    • APA

      Squina, F. M., Leal, J., Cipriano, V. T. F., Martinez-Rossi, N. M., & Rossi, A. (2009). Transcription of the Neurospora crassa 70-kDa class heat shock protein genes in modulated in response to extracellular pH changes. Cell Stress and Chaperones, 15( 2), 225-231. doi:10.1007/s12192-009-0131-z
    • NLM

      Squina FM, Leal J, Cipriano VTF, Martinez-Rossi NM, Rossi A. Transcription of the Neurospora crassa 70-kDa class heat shock protein genes in modulated in response to extracellular pH changes. Cell Stress and Chaperones. 2009 ; 15( 2): 225-231.
    • Vancouver

      Squina FM, Leal J, Cipriano VTF, Martinez-Rossi NM, Rossi A. Transcription of the Neurospora crassa 70-kDa class heat shock protein genes in modulated in response to extracellular pH changes. Cell Stress and Chaperones. 2009 ; 15( 2): 225-231.

    Referências citadas na obra
    Britton ME, Kapoor M (2002) The oligomeric state, complex formation, and chaperoning activity of hsp70 and hsp80 of Neurospora crassa. Biochem Cell Biol 80:797–809
    Bukau B, Weissman J, Horwich A (2006) Molecular chaperones and protein quality control. Cell 125:443–451
    Caddick MX, Brownlee AG, Arst HN (1986) Regulation of gene-expression by pH of the growth-medium in Aspergillus nidulans. Mol Gen Genet 203:346–353
    Christis C, Lubsen NH, Braakman I (2008) Protein folding includes oligomerization—examples from the endoplasmic reticulum and cytosol. FEBS J 275:4700–4727
    Craig EA, Kramer J, Shilling J, Werner-Washburne M, Holmes S, Kosic-Smithers J, Nicolet CM (1989) SSC1, an essential member of the yeast HSP70 multigene family, encodes a mitochondrial protein. Mol Cell Biol 9:3000–3008
    Daugaard M, Rohde M, Jaattela M (2007) The heat shock protein 70 family: Highly homologous proteins with overlapping and distinct functions. FEBS Lett 581:3702–3710
    Deocaris CC, Kaul SC, Wadhwa R (2006) On the brotherhood of the mitochondrial chaperones mortalin and heat shock protein 60. Cell Stress Chaperones 11:116–128
    Ellis RJ (2006) Molecular chaperones: assisting assembly in addition to folding. Trends Biochem Sci 31:395–401
    Ellwood MS, Craig EA (1984) Differential regulation of the 70 K heat shock gene and related genes in Saccharomyces cerevisiae. Mol Cell Biol 4:1454–1459
    Faircloth LM, Churchill PF, Caldwell GA, Caldwell KA (2009) The microtubule-associated protein, NUD-1, exhibits chaperone activity in vitro. Cell Stress Chaperones 14:95–103
    Fox GC, Shafiq M, Briggs DC, Knowles PP, Collister M et al (2007) Redox-mediated substrate recognition by Sdp1 defines a new group of tyrosine phosphatases. Nature 447:487–492
    Freitag DG, Ouimet PM, Girvitz TL, Kapoor M (1997) Heat shock protein 80 of Neurospora crassa, a cytosolic molecular chaperone of the eukaryotic stress 90 family, interacts directly with heat shock protein 70. Biochemistry 36:10221–10229
    Freitas JS, Silva EM, Rossi A (2007) Identification of nutrient-dependent changes in extracellular pH and acid phosphatase secretion in Aspergillus nidulans. Genet Mol Res 6:721–729
    Galagan JE, Calvo SE, Borkovich KA, Selker EU, Read ND et al (2003) The genome sequence of the filamentous fungus Neurospora crassa. Nature 422:859–868
    Georg RC, Gomes SL (2007) Comparative expression analysis of members of the Hsp70 family in the chytridiomycete Blastocladiella emersonii. Gene 386:24–34
    Gras DE, Silveira HCS, Martinez-Rossi NM, Rossi A (2007) Identification of genes displaying differential expression in the nuc-2 mutant strain of the mold Neurospora crassa grown under phosphate starvation. FEMS Microbiol Lett 269:196–200
    Gras DE, Silveira HCS, Peres NTA, Sanches PR, Martinez-Rossi NM, Rossi A (2009) Transcriptional changes in the nuc-2A mutant strain of Neurospora crassa cultivated under conditions of phosphate shortage. Microbiol Res . doi: 10.1016/j.micres.2008.1012.1005
    Hahn JS, Neef DW, Thiele DJ (2006) A stress regulatory network for co-ordinated activation of proteasome expression mediated by yeast heat shock transcription factor. Mol Microbiol 60:240–251
    Hartl FU, Hayer-Hartl M (2002) Molecular chaperones in the cytosol: from nascent chain to folded protein. Science 295:1852–1858
    Hashikawa N, Yamamoto N, Sakurai H (2007) Different mechanisms are involved in the transcriptional activation by yeast heat shock transcription factor through two different types of heat shock elements. J Biol Chem 282:10333–10340
    Hohmann S (2002) Osmotic stress signaling and osmoadaptation in yeasts. Microbiol Mol Biol Rev 66:300–372
    Kalmar B, Greensmith L (2009) Induction of heat shock proteins for protection against oxidative stress. Adv Drug Deliv Rev 61(4):310–318. doi: 10.1016/j.addr.2009.1002.1003
    Kang S (1993) Functional domains of the transcriptional activator NUC-1 in Neurospora crassa. Gene 130:259–264
    Kang S, Metzenberg RL (1990) Molecular analysis of nuc-1 +, a gene controlling phosphorus acquisition in Neurospora crassa. Mol Cell Biol 10:5839–5848
    Kapoor M, Curle CA, Runham C (1995) The Hsp70 gene family of Neurospora crassa—cloning, sequence-analysis, expression, and genetic-mapping of the major stress-inducible member. J Bacteriol 177:212–221
    Kregel KC (2002) Heat shock proteins: modifying factors in physiological stress responses and acquired thermotolerance. J Appl Physiol 92:2177–2186
    Lamb TM, Mitchell AP (2003) The transcription factor Rim101p governs ion tolerance and cell differentiation by direct repression of the regulatory genes NRG1 and SMP1 in Saccharomyces cerevisiae. Mol Cell Biol 23:677–686
    Leal J, Squina FM, Martinez-Rossi NM, Rossi A (2007) The transcription of the gene for iso-orotate decarboxylase (IDCase), an enzyme of the thymidine salvage pathway, is downregulated in the preg c mutant strain of Neurospora crassa grown under phosphate starvation. Can J Microbiol 53:1011–1015
    Leal J, Squina FM, Freitas JS, Silva EM, Ono CJ, Martinez-Rossi NM, Rossi A (2009) A splice variant of the Neurospora crassa hex-1 transcript, which encodes the major protein of the Woronin body, is modulated by extracellular phosphate and pH changes. FEBS Lett 583:180–184
    Li F, Luan W, Zhang C, Zhang J, Wang B, Xie Y, Li S, Xiang J (2009) Cloning of cytoplasmic heat shock protein 90 (FcHSP90) from Fenneropenaeus chinensis and its expression response to heat shock and hypoxia. Cell Stress Chaperones 14:161–172
    Mayer MP, Bukau B (2005) Hsp70 chaperones: cellular functions and molecular mechanism. Cell Mol Life Sci 62:670–684
    McCluskey K (2003) The Fungal Genetics Stock Center: from molds to molecules. Adv Appl Microbiol 52:245–262
    Metzenberg RL (1979) Implications of some genetic control mechanisms in Neurospora. Microbiol Rev 43:361–383
    Montero-Barrientos M, Hermosa R, Nicolas C, Cardoza RE, Gutierrez S, Monte E (2008) Overexpression of a Trichoderma HSP70 gene increases fungal resistance to heat and other abiotic stresses. Fungal Genet Biol 45:1506–1513
    Nahas E, Terenzi HF, Rossi A (1982) Effect of carbon source and pH on the production and secretion of acid-phosphatase (EC3.1.3.2) and alkaline-phosphatase (EC3.1.3.1) in Neurospora crassa. J Gen Microbiol 128:2017–2021
    Nicchitta CV (2009) Cell biology: how to combat stress. Nature 457:668–669
    Nozawa SR, Ferreira-Nozawa MS, Martinez-Rossi NM, Rossi A (2003a) The pH-induced glycosylation of secreted phosphatases is mediated in Aspergillus nidulans by the regulatory gene pacC-dependent pathway. Fungal Genet Biol 39:286–295
    Nozawa SR, May GS, Martinez-Rossi NM, Ferreira-Nozawa MS, Coutinho-Netto J, Maccheroni W Jr, Rossi A (2003b) Mutation in a calpain-like protease affects the posttranslational mannosylation of phosphatases in Aspergillus nidulans. Fungal Genet Biol 38:220–227
    Ogawa N, DeRisi J, Brown PO (2000) New components of a system for phosphate accumulation and polyphosphate metabolism in Saccharomyces cerevisiae revealed by genomic expression analysis. Mol Biol Cell 11:4309–4321
    Peleg Y, Addison R, Aramayo R, Metzenberg RL (1996a) Translocation of Neurospora crassa transcription factor NUC-1 into the nucleus is induced by phosphorus limitation. Fungal Genet Biol 20:185–191
    Peleg Y, Aramayo R, Kang S, Hall JG, Metzenberg RL (1996b) NUC-2, a component of the phosphate-regulated signal transduction pathway in Neurospora crassa, is an ankyrin repeat protein. Mol Gen Genet 252:709–716
    Peñas MM, Hervas-Aguilar A, Munera-Huertas T, Reoyo E, Penalva MA, Arst HN Jr, Tilburn J (2007) Further characterization of the signaling proteolysis step in the Aspergillus nidulans pH signal transduction pathway. Eukaryot Cell 6:960–970
    Perez-Esteban B, Orejas M, Gomez-Pardo E, Penalva MA (1993) Molecular characterization of a fungal secondary metabolism promoter: transcription of the Aspergillus nidulans isopenicillin N synthetase gene is modulated by upstream negative elements. Mol Microbiol 9:881–895
    Plesofsky NS, Levery SB, Castle SA, Brambl R (2008) Stress-induced cell death is mediated by ceramide synthesis in Neurospora crassa. Eukaryot Cell 7:2147–2159
    Ramon AM, Fonzi WA (2003) Diverged binding specificity of Rim101p, the Candida albicans ortholog of PacC. Eukaryot Cell 2:718–728
    Rensing L, Monnerjahn C, Meyer U (1998) Differential stress gene expression during the development of Neurospora crassa and other fungi. FEMS Microbiol Lett 168:159–166
    Rezaie S, Ban J, Mildner M, Poitschek C, Brna C, Tschachler E (2000) Characterization of a cDNA clone, encoding a 70 kDa heat shock protein from the dermatophyte pathogen Trichophyton rubrum. Gene 241:27–33
    Ritossa F (1962) A new puffing pattern induced by temperature shock and DNP in Drosophila. Experientia 18:571–573
    Ritossa F (1996) Discovery of the heat shock response. Cell Stress Chaperones 1:97–98
    Rodrigues SA, Rossi A (1985) Effect of phosphate levels on the synthesis of acid phosphatases (EC 3.1.3.2) in Neurospora crassa. Genet Res 45:239–249
    Sakurai H, Takemori Y (2007) Interaction between heat shock transcription factors (HSFs) and divergent binding sequences: binding specificities of yeast HSFs and human HSF1. J Biol Chem 282:13334–13341
    Selker EU, Garrett PW (1988) DNA-Sequence Duplications Trigger Gene Inactivation in Neurospora crassa. Proc Natl Acad Sci U S A 85:6870–6874
    Silva EM, Freitas JS, Gras DE, Squina FM, Leal J, Silveira HCS, Martinez-Rossi NM, Rossi A (2008) Identification of genes differentially expressed in a strain of the mold Aspergillus nidulans carrying a loss-of-function mutation in the palA gene. Can J Microbiol 54:803–811
    Steel GJ, Fullerton DM, Tyson JR, Stirling CJ (2004) Coordinated activation of Hsp70 chaperones. Science 303:98–101
    Thompson S, Croft NJ, Sotiriou A, Piggins HD, Crosthwaite SK (2008) Neurospora crassa heat shock factor 1 is an essential gene; a second heat shock factor-like gene, hsf2, is required for asexual spore formation. Eukaryot Cell 7:1573–1581
    Tilburn J, Sarkar S, Widdick DA, Espeso EA, Orejas M, Mungroo J, Peñalva MA, Arst HN Jr (1995) The Aspergillus PacC zinc finger transcription factor mediates regulation of both acid- and alkaline-expressed genes by ambient pH. EMBO J 14:779–790
    Tokuriki N, Tawfik DS (2009) Chaperonin overexpression promotes genetic variation and enzyme evolution. Nature 459:668–673
    Tremmel D, Duarte M, Videira A, Tropschug M (2007) FKBP22 is part of chaperone/folding catalyst complexes in the endoplasmic reticulum of Neurospora crassa. FEBS Lett 581:2036–2040
    Turkel S, Turgut T, Kayakent N (2006) Effect of osmotic stress on the derepression of invertase synthesis in nonconventional yeasts. Lett Appl Microbiol 42:78–82
    Ungermann C, Neupert W, Cyr DM (1994) The role of Hsp70 in conferring unidirectionality on protein translocation into mitochondria. Science 266:1250–1253
    Werner-Washburne M, Becker J, Kosic-Smithers J, Craig EA (1989) Yeast Hsp70 RNA levels vary in response to the physiological status of the cell. J Bacteriol 171:2680–2688
    Xavier IJ, Khachatourians GG, Ovsenek N (1999) Constitutive and heat-inducible heat shock element binding activities of heat shock factor in a group of filamentous fungi. Cell Stress Chaperones 4:211–222