Emeritus Professor Herbert N Arst

Publications


Journals

  • Calcagno-Pizarelli AM; Hervás-Aguilar A; Galindo A; Abenza JF; Peñalva MA; Arst HN. (1 Dec 2011). Rescue of Aspergillus nidulans severely debilitating null mutations in ESCRT-0, I, II and III genes by inactivation of a salt-tolerance pathway allows examination of ESCRT gene roles in pH signalling. J Cell Sci. 124:4064-4076. DOI Open Access copy.
  • Arst HN; MacDonald DW. (6 Mar 1975). A gene cluster in Aspergillus nidulans with an internally located cis-acting regulatory region. Nature. 254:26-31.
  • ARST HN; SCAZZOCCHIO C. (1980). A METHOD FOR MONITORING MACROMOLECULAR-SYNTHESIS IN FILAMENTOUS FUNGI AND ITS USE TO STUDY CONTROL OF NUCLEIC-ACID SYNTHESIS IN ASPERGILLUS-NIDULANS. J GEN MICROBIOL. 118:443-454.
  • Arst HN; Jones SA; Bailey CR. (Oct 1981). A method for the selection of deletion mutations in the L-proline catabolism gene cluster of Aspergillus nidulans. Genet Res. 38:171-195.
  • Arst HN; Parbtani AA; Cove DJ. (1975). A mutant of Aspergillus nidulans defective in NAD-linked glutamate dehydrogenase. Mol Gen Genet. 138:164-171.
  • Arst HN; MacDonald DW. (9 May 1973). A mutant of Asperigillus nidulans lacking NADP-linked glutamate dehydrogenase. Mol Gen Genet. 122:261-265.
  • Rand KN; Arst HN. (21 Sep 1977). A mutation in Aspergillus nidulans which affects the regulation of nitrite reductase and is tightly linked to its structural gene. Mol Gen Genet. 155:67-75.
  • Arst HN. (1982). A near terminal pericentric inversion leads to nitrogen metabolite derepression in Aspergillus nidulans. Mol Gen Genet. 188:490-493.
  • ARST HN. (1983). A NEAR TERMINAL PERICENTRIC-INVERSION LEADS TO NITROGEN METABOLITE DEPRESSION IN ASPERGILLUS-NIDULANS. HEREDITY. 51:530-530.
  • ARST HN. (1985). A NEW CLONING STRATEGY FOR FILAMENTOUS FUNGI. MICROBIOL SCI. 2:167-167.
  • BROWNLEE AG; CADDICK MX; ARST HN. (1983). A NOVEL PHOSPHATE-REPRESSIBLE PHOSPHODIESTERASE IN ASPERGILLUS-NIDULANS. HEREDITY. 51:529-529.
  • MacRae WD; Buxton FP; Sibley S; Garven S; Gwynne DI; Davies RW; Arst HN. (30 Nov 1988). A phosphate-repressible acid phosphatase gene from Aspergillus niger: its cloning, sequencing and transcriptional analysis. Gene. 71:339-348.
  • Arst HN; Tollervey DW; Sealy-Lewis HM. (May 1982). A possible regulatory gene for the molybdenum-containing cofactor in Aspergillus nidulans. J Gen Microbiol. 128:1083-1093.
  • ARST HN; TOLLERVEY DW; SEALYLEWIS HM. (1982). A POSSIBLE REGULATORY GENE FOR THE MOLYBDENUM-CONTAINING COFACTOR IN ASPERGILLUS-NIDULANS. HEREDITY. 49:136-136.
  • Arst HN; Bailey CR; Penfold HA. (Mar 1980). A possible rôle for acid phosphatase in gamma-amino-n-butyrate uptake in Aspergillus nidulans. Arch Microbiol. 125:153-158.
  • ARST HN; BAILEY CR; PENFOLD HA. (1980). A ROLE FOR ACID-PHOSPHATASE IN GABA TRANSPORT IN ASPERGILLUS-NIDULANS. HEREDITY. 44:289-289.
  • Bailey CR; Arst HN; Penfold HA. (Oct 1980). A third gene affecting GABA transaminase levels in Aspergillus nidulans. Genet Res. 36:167-180.
  • Arst HN; Hondmann DH; Visser J. (Aug 1990). A translocation activating the cryptic nitrogen regulation gene areB inactivates a previously unidentified gene involved in glycerol utilisation in Aspergillus nidulans. Mol Gen Genet. 223:134-137.
  • Arst HN; Tollervey D; Caddick MX. (Jan 1989). A translocation associated, loss-of-function mutation in the nitrogen metabolite repression regulatory gene of Aspergillus nidulans can revert intracistronically. Mol Gen Genet. 215:364-367.
  • Orejas M; Espeso EA; Tilburn J; Sarkar S; Arst HN; Peñalva MA. (1 Jul 1995). Activation of the Aspergillus PacC transcription factor in response to alkaline ambient pH requires proteolysis of the carboxy-terminal moiety. Genes Dev. 9:1622-1632.
  • Díez E; Alvaro J; Espeso EA; Rainbow L; Suárez T; Tilburn J; Arst HN; Peñalva MA. (15 Mar 2002). Activation of the Aspergillus PacC zinc finger transcription factor requires two proteolytic steps. EMBO J. 21:1350-1359. DOI.
  • Meyer V; Spielvogel A; Funk L; Tilburn J; Arst HN; Stahl U. (Oct 2005). Alkaline pH-induced up-regulation of the afp gene encoding the antifungal protein (AFP) of Aspergillus giganteus is not mediated by the transcription factor PacC: possible involvement of calcineurin. Mol Genet Genomics. 274:295-306. DOI.
  • Peñalva MA; Tilburn J; Bignell E; Arst HN. (Jun 2008). Ambient pH gene regulation in fungi: making connections. Trends Microbiol. 16:291-300. DOI.
  • Negrete-Urtasun S; Reiter W; Diez E; Denison SH; Tilburn J; Espeso EA; Penalva MA; Arst HN. (Dec 1999). Ambient pH signal transduction in Aspergillus: completion of gene characterization (vol 33, pg 994, 1999). MOL MICROBIOL. 34:1149-1149.
  • Negrete-Urtasun S; Reiter W; Diez E; Denison SH; Tilburn J; Espeso EA; Peñalva MA; Arst HN. (Sep 1999). Ambient pH signal transduction in Aspergillus: completion of gene characterization. Mol Microbiol. 33:994-1003.
  • Shaffer PM; Arst HN; Estberg L; Fernando L; Ly T; Sitter M. (May 1988). An asparaginase of Aspergillus nidulans is subject to oxygen repression in addition to nitrogen metabolite repression. Mol Gen Genet. 212:337-341.
  • SHAFFER PM; ARST HN; ESTBERG L; FERNANDO L; LY T; SITTER M. (25 Mar 1988). AN ASPARAGINASE OF ASPERGILLUS-NIDULANS IS SUBJECT TO OXYGEN REPRESSION IN ADDITION TO NITROGEN METABOLITE REPRESSION. FASEB J. 2:A1783-A1783.
  • ARST HN; RAND KN; BAILEY CR. (1980). AN INSERTIONAL TRANSLOCATION SEPARATING THE TIGHTLY LINKED STRUCTURAL GENES FOR NITRATE AND NITRITE REDUCTASES IN ASPERGILLUS-NIDULANS. HEREDITY. 44:289-289.
  • Arst HN; Tollervey D; Dowzer CE; Kelly JM. (May 1990). An inversion truncating the creA gene of Aspergillus nidulans results in carbon catabolite derepression. Mol Microbiol. 4:851-854.
  • Findon H; Calcagno-Pizarelli AM; Martínez JL; Spielvogel A; Markina-Iñarrairaegui A; Indrakumar T; Ramos J; Peñalva MA; et alEspeso EA; Arst HN. (Jul 2010). Analysis of a novel calcium auxotrophy in Aspergillus nidulans. Fungal Genet Biol. 47:647-655. DOI.
  • Arst HN. (3 Feb 2000). Apathy rewards misconduct - and everybody suffers. NATURE. 403:478-478.
  • Herranz S; Rodríguez JM; Bussink HJ; Sánchez-Ferrero JC; Arst HN; Peñalva MA; Vincent O. (23 Aug 2005). Arrestin-related proteins mediate pH signaling in fungi. Proc Natl Acad Sci U S A. 102:12141-12146. DOI.
  • ARST HN; KUDLA B; MARTINEZROSSI N; CADDICK MX; SIBLEY S; DAVIES RW. (Sep 1989). ASPERGILLUS AND MOUSE SHARE A NEW CLASS OF ZINC FINGER PROTEIN. TRENDS GENET. 5:291-291.
  • Arst HN; Kudla B; Martinez-Rossi N; Caddick MX; Sibley S; Davies RW. (Sep 1989). Aspergillus and mouse share a new class of 'zinc finger' protein. Trends Genet. 5:291.
  • Bailey C; Arst HN. (21 Feb 1975). Carbon catabolite repression in Aspergillos nidulans. Eur J Biochem. 51:573-577.
  • BAILEY CR; ARST HN; PAGE MM. (1974). CARBON CATABOLITE REPRESSION IN ASPERGILLUS-NIDULANS. HEREDITY. 32:284-284.
  • GUNATILL.IA; SCAZZOCC.C; ARST HN. (1974). CARBOXIN RESISTANT MUTANTS OF ASPERGILLUS-NIDULANS. HEREDITY. 32:285-285.
  • MacRae WD; Buxton FP; Sibley S; Garven S; Gwynne DI; Arst HN; Davies RW. (25 Aug 1993). Characterization of an Aspergillus nidulans genomic DNA fragment conferring phosphate-non-repressible acid-phosphatase activity. Gene. 130:247-251.
  • Hervás-Aguilar A; Rodríguez-Galán O; Galindo A; Abenza JF; Arst HN; Peñalva MA. (Jul 2010). Characterization of Aspergillus nidulans DidB Did2, a non-essential component of the multivesicular body pathway. Fungal Genet Biol. 47:636-646. DOI.
  • Negrete-Urtasun S; Denison SH; Arst HN. (Mar 1997). Characterization of the pH signal transduction pathway gene palA of Aspergillus nidulans and identification of possible homologs. J Bacteriol. 179:1832-1835.
  • Bailey CR; Penfold HA; Arst HN. (16 Jan 1979). Cis-dominant regulatory mutations affecting the expression of GABA permease in Aspergillus nidulans. Mol Gen Genet. 169:79-83.
  • Hull EP; Green PM; Arst HN; Scazzocchio C. (Apr 1989). Cloning and physical characterization of the L-proline catabolism gene cluster of Aspergillus nidulans. Mol Microbiol. 3:553-559.
  • Caddick MX; Arst HN; Taylor LH; Johnson RI; Brownlee AG. (May 1986). Cloning of the regulatory gene areA mediating nitrogen metabolite repression in Aspergillus nidulans. EMBO J. 5:1087-1090.
  • Arst HN. (Aug 1986). Coming up for air: a requirement for superoxide dismutase. Microbiol Sci. 3:247-248.
  • ARST HN. (1976). CONTROL OF GENE-EXPRESSION IN ASPERGILLUS-NIDULANS. HEREDITY. 37:149-149.
  • Arst HN; Scazzocchio C. (Apr 1972). Control of nucleic acid synthesis in Aspergillus nidulans. Biochem J. 127:18P.
  • ARST HN; SCAZZOCC.C. (1972). CONTROL OF NUCLEIC-ACID SYNTHESIS IN ASPERGILLUS-NIDULANS. HEREDITY. 29:131-&.
  • ARST HN; SCAZZOCC.C. (1972). CONTROL OF NUCLEIC-ACID SYNTHESIS IN ASPERGILLUS-NIDULANS. BIOCHEM J. 127:P18-&.
  • ARST HN; MACDONAL.DW. (1974). CONTROL OF PROLINE DEGRADATION IN ASPERGILLUS-NIDULANS. HEREDITY. 33:137-137.
  • ARST HN. (1975). CORRECTION. NATURE. 254:360-360.
  • Arst HN. (Apr 1997). Cosying up to MoCo. MICROBIOL-UK. 143:1037-1037.
  • Stankovich M; Platt A; Caddick MX; Langdon T; Shaffer PM; Arst HN. (Jan 1993). C-terminal truncation of the transcriptional activator encoded by areA in Aspergillus nidulans results in both loss-of-function and gain-of-function phenotypes. Mol Microbiol. 7:81-87.
  • STANKOVICH M; PLATT A; CADDICK MX; LANGDON T; SHAFFER PM; ARST HN. (Mar 1993). C-TERMINAL TRUNCATION OF THE TRANSCRIPTIONAL ACTIVATOR ENCODED BY AREA IN ASPERGILLUS-NIDULANS RESULTS IN BOTH LOSS-OF-FUNCTION AND GAIN-OF-FUNCTION PHENOTYPES (VOL 7, PG 81, 1993). MOL MICROBIOL. 7:1025-1025.
  • Gunatilleke IA; Scazzocchio C; Arst HN. (1975). Cytoplasmic and nuclear mutations to chloramphenicol resistance in Aspergillus nidulans. Mol Gen Genet. 137:269-276.
  • Caddick MX; Arst HN. (Nov 1998). Deletion of the 389 N-terminal residues of the transcriptional activator AREA does not result in nitrogen metabolite derepression in Aspergillus nidulans. J Bacteriol. 180:5762-5764.
  • Espeso EA; Cobeño L; Arst HN. (Oct 2005). Discrepancies between recombination frequencies and physical distances in Aspergillus nidulans: implications for gene identification. Genetics. 171:835-838. DOI.
  • Schrettl M; Bignell E; Kragl C; Sabiha Y; Loss O; Eisendle M; Wallner A; Arst HN; et alHaynes K; Haas H. (28 Sep 2007). Distinct roles for intra- and extracellular siderophores during Aspergillus fumigatus infection. PLoS Pathog. 3:1195-1207. DOI.
  • Arst HN; Rand KN; Bailey CR. (2 Jul 1979). Do the tightly linked structural genes for nitrate and nitrite reductases in Aspergillus nidulans form an operon? Evidence from an insertional translocation which separates them. Mol Gen Genet. 174:89-100.
  • TOLLERVEY DW; ARST HN. (1982). DOMAIN-WIDE, LOCUS-SPECIFIC SUPPRESSION OF NITROGEN METABOLITE REPRESSED MUTATIONS IN ASPERGILLUS-NIDULANS. CURR GENET. 6:79-85.
  • ARST HN. (1985). ENDOCYTOSIS IN YEAST. MICROBIOL SCI. 2:296-297.
  • Calcagno-Pizarelli AM; Negrete-Urtasun S; Denison SH; Rudnicka JD; Bussink HJ; Munera-Huertas T; Stanton L; Hervas-Aguilar A; et alEspeso EA; Tilburn J; Arst HN; Penalva MA. (Dec 2007). Establishment of the ambient pH signaling complex in Aspergillus nidulans: PalI assists plasma membrane localization of PalH. EUKARYOT CELL. 6:2365-2375. DOI.
  • Nicholas HB; Arst HN; Caddick MX. (Jan 2001). Evaluating low level sequence identities. Are Aspergillus QUTA and AROM homologous?. Eur J Biochem. 268:414-419.
  • Hervás-Aguilar A; Rodríguez JM; Tilburn J; Arst HN; Peñalva MA. (30 Nov 2007). Evidence for the direct involvement of the proteasome in the proteolytic processing of the Aspergillus nidulans zinc finger transcription factor PacC. J Biol Chem. 282:34735-34747. DOI.
  • Arst HN; Holden DW; Caddick MX. (11 Jul 1997). Evolution of transcription-regulating proteins: caveat lector!. Gene. 173 Suppl:S1-S4.
  • Arst HN. (Jul 1986). Exploiting classical genetics to clone a eukaryotic regulatory gene. Microbiol Sci. 3:204.
  • Hunter GD; Bailey CR; Arst HN. (Nov 1992). Expression of a bacterial aspartase gene in Aspergillus nidulans: an efficient system for selecting multicopy transformants. Curr Genet. 22:377-383.
  • van der Veen P; Arst HN; Flipphi MJ; Visser J. (1994). Extracellular arabinases in Aspergillus nidulans: the effect of different cre mutations on enzyme levels. Arch Microbiol. 162:433-440.
  • ARST HN. (Feb 1987). FIXING ON AN ENIGMA. MICROBIOL SCI. 4:58-58.
  • Arst HN. (Feb 1987). Fixing on an enigma. Microbiol Sci. 4:58.
  • ARST HN. (Apr 1986). FOR THE WANT OF ZWISCHENFERMENT. MICROBIOL SCI. 3:114-115.
  • Peñas MM; Hervás-Aguilar A; Múnera-Huertas T; Reoyo E; Peñalva MA; Arst HN; Tilburn J. (Jun 2007). Further characterization of the signaling proteolysis step in the Aspergillus nidulans pH signal transduction pathway. Eukaryot Cell. 6:960-970. DOI.
  • Arst HN. (6 Jul 1978). GABA transaminase provides an alternative route of beta-alanine synthesis in Aspergillus nidulans. Mol Gen Genet. 163:23-27.
  • JONES SA; ARST HN; MACDONALD DW. (1981). GENE ROLES IN THE PRN CLUSTER OF ASPERGILLUS-NIDULANS. CURR GENET. 3:49-56.
  • ARST HN. (1992). GENE-REGULATION IN MICROBIAL EUKARYOTES IN THE EARLY 1990S. WORLD J MICROB BIOT. 8:22-23.
  • CADDICK MX; ARST HN; BROWNLEE AG. (1983). GENES INVOLVED IN PHOSPHATASE SYNTHESIS IN ASPERGILLUS-NIDULANS AND THEIR RELATIONSHIP WITH CERTAIN TRANSPORT-SYSTEMS. HEREDITY. 51:528-529.
  • Arst HN. (20 Jul 1968). Genetic analysis of the first steps of sulphate metabolism in Aspergillus nidulans. Nature. 219:268-270.
  • Diallinas G; Gorfinkiel L; Arst HN; Cecchetto G; Scazzocchio C. (1994). Genetic and molecular characterisation of purine permease genes of Aspergillus nidulans reveals a novel family of transporters conserved in prokaryotes and eukaryotes. Folia Microbiol (Praha). 39:513-514.
  • Diallinas G; Gorfinkiel L; Arst HN; Cecchetto G; Scazzocchio C. (14 Apr 1995). Genetic and molecular characterization of a gene encoding a wide specificity purine permease of Aspergillus nidulans reveals a novel family of transporters conserved in prokaryotes and eukaryotes. J Biol Chem. 270:8610-8622.
  • Arst HN; Bailey CR. (Nov 1980). Genetic evidence for a second asparaginase in Aspergillus nidulans. J Gen Microbiol. 121:243-247.
  • TOLLERVEY DW; ARST HN. (1983). GENETIC-EVIDENCE FOR THE EXISTENCE OF A PSEUDOGENE RELATED TO A MAJOR REGULATORY GENE IN ASPERGILLUS-NIDULANS. HEREDITY. 50:208-208.
  • ARST HN; COVE DJ. (1973). GENETICS OF NITROGEN-METABOLISM IN ASPERGILLUS. GENETICS. 74:S10-S10.
  • Tanzer MM; Arst HN; Skalchunes AR; Coffin M; Darveaux BA; Heiniger RW; Shuster JR. (Dec 2003). Global nutritional profiling for mutant and chemical mode-of-action analysis in filamentous fungi. Funct Integr Genomics. 3:160-170. DOI.
  • GORTON DJ; SCAZZOCCHIO C; ARST HN. (1978). HETEROGENEITY OF ALLELES AT A CONTROL SITE IN ASPERGILLUS-NIDULANS. HEREDITY. 41:129-129.
  • Durrens P; Green PM; Arst HN; Scazzocchio C. (Jun 1986). Heterologous insertion of transforming DNA and generation of new deletions associated with transformation in Aspergillus nidulans. Mol Gen Genet. 203:544-549.
  • Connelly JC; Arst HN. (15 May 1991). Identification of a telomeric fragment from the right arm of chromosome III of Aspergillus nidulans. FEMS Microbiol Lett. 64:295-297.
  • CONNELLY JC; ARST HN. (15 May 1991). IDENTIFICATION OF A TELOMERIC FRAGMENT FROM THE RIGHT ARM OF CHROMOSOME-III OF ASPERGILLUS-NIDULANS. FEMS MICROBIOL LETT. 80:295-298.
  • JONES SA; ARST HN; MACDONALD DW. (1981). IDENTIFICATION OF STRUCTURAL GENES IN THE PRN GENE-CLUSTER OF ASPERGILLUS-NIDULANS. HEREDITY. 46:287-287.
  • MacCabe AP; Van den Hombergh JP; Tilburn J; Arst HN; Visser J. (25 Feb 1996). Identification, cloning and analysis of the Aspergillus niger gene pacC, a wide domain regulatory gene responsive to ambient pH. Mol Gen Genet. 250:367-374.
  • MacCabe AP; Vanhanen S; Sollewign Gelpke MD; van de Vondervoort PJ; Arst HN; Visser J. (9 Mar 1998). Identification, cloning and sequence of the Aspergillus niger areA wide domain regulatory gene controlling nitrogen utilisation. Biochim Biophys Acta. 1396:163-168.
  • Arst HN; Scazzocchio C. (6 Mar 1975). Initiator constitutive mutation with an 'up-promoter' effect in Aspergillus nidulans. Nature. 254:31-34.
  • ARST HN; SCAZZOCCHIO C. (1975). INITIATOR CONSTITUTIVE MUTATION WITH UP-PROMOTER ACTIVITY IN ASPERGILLUS-NIDULANS. HEREDITY. 34:291-291.
  • Arst HN. (15 Jul 1976). Integrator gene in Aspergillus nidulans. Nature. 262:231-234.
  • PENFOLD HA; BAILEY CR; ARST HN. (1977). INTEGRATOR GENE IN ASPERGILLUS-NIDULANS - REGULATORY AND METABOLIC ROLES OF OMEGA-AMINO ACIDS. HEREDITY. 39:433-433.
  • Arst HN; Penfold HA; Bailey CR. (9 Nov 1978). Lactam utilisation in Aspergillus nidulans: evidence for a fourth gene under the control of the integrator gene intA. Mol Gen Genet. 166:321-327.
  • ARST HN; PENFOLD HA; BAILEY CR. (1979). LACTAM UTILIZATION IN ASPERGILLUS-NIDULANS - EVIDENCE FOR A 4TH GENE UNDER THE CONTROL OF THE INTEGRATOR GENE-INTA. HEREDITY. 42:273-274.
  • Arst HN. (Aug 1988). Localisation of several chromosome I genes of Aspergillus nidulans: implications for mitotic recombination. Mol Gen Genet. 213:545-547.
  • ARST HN; SCAZZOCC.C; KRISTENS.T. (1973). LOCUS-SPECIFIC LYSINE SUPPRESSOR IN ASPERGILLUS-NIDULANS. HEREDITY. 31:429-429.
  • Arst HN; Cove DJ. (Jun 1969). Methylammonium resistance in Aspergillus nidulans. J Bacteriol. 98:1284-1293.
  • Arst HN; MacDonald DW; Cove DJ. (1970). Molybdate metabolism in Aspergillus nidulans. I. Mutations affecting nitrate reductase and-or xanthine dehydrogenase. Mol Gen Genet. 108:129-145.
  • Arst HN; Cove DJ. (1970). Molybdate metabolism in Aspergillus nidulans. II. Mutations affecting phosphatase activity or galactose utilization. Mol Gen Genet. 108:146-153.
  • ARST HN; MACDONAL.DW; COVE DJ. (1970). MOLYBDATE METABOLISM IN ASPERGILLUS-NIDULANS .1. MUTATIONS AFFECTING NITRATE REDUCTASE AND/OR XANTHINE DEHYDROGENASE. MOL GEN GENET. 108:129-&.
  • ARST HN; COVE DJ. (1970). MOLYBDATE METABOLISM IN ASPERGILLUS-NIDULANS .2. MUTATIONS AFFECTING PHOSPHATASE ACTIVITY OR GALACTOSE UTILIZATION. MOL GEN GENET. 108:146-&.
  • ARST HN; PARBTANI AAM; COVE DJ. (1975). MUTANT OF ASPERGILLUS-NIDULANS DEFECTIVE IN NAD-LINKED GLUTAMATE-DEHYDROGENASE. MOL GEN GENET. 138:165-171.
  • ARST HN; MACDONAL.DW. (1973). MUTANT OF ASPERGILLUS-NIDULANS LACKING NADP-LINKED GLUTAMATE DEHYDROGENASE. HEREDITY. 30:260-260.
  • Rossi A; Arst HN. (1 Jan 1990). Mutants of Aspergillus nidulans able to grow at extremely acidic pH acidify the medium less than wild type when grown at more moderate pH. FEMS Microbiol Lett. 54:51-53.
  • ROSSI A; ARST HN. (1 Jan 1990). MUTANTS OF ASPERGILLUS-NIDULANS ABLE TO GROW AT EXTREMELY ACIDIC PH ACIDIFY THE MEDIUM LESS THAN WILD-TYPE WHEN GROWN AT MORE MODERATE PH. FEMS MICROBIOL LETT. 66:51-53.
  • ARST HN; PAGE MM. (1973). MUTANTS OF ASPERGILLUS-NIDULANS ALTERED IN TRANSPORT OF METHYLAMMONIUM AND AMMONIUM. MOL GEN GENET. 121:239-245.
  • ARST HN. (1971). MUTANTS OF ASPERGILLUS-NIDULANS UNABLE TO USE CHOLINE-O-SULPHATE. GENET RES. 17:273-&.
  • Wilson RA; Arst HN. (Sep 1998). Mutational analysis of AREA, a transcriptional activator mediating nitrogen metabolite repression in Aspergillus nidulans and a member of the "streetwise" GATA family of transcription factors. MICROBIOL MOL BIOL R. 62:586-+.
  • Wilson RA; Arst HN. (Sep 1998). Mutational analysis of AREA, a transcriptional activator mediating nitrogen metabolite repression in Aspergillus nidulans and a member of the "streetwise" GATA family of transcription factors. Microbiol Mol Biol Rev. 62:586-596.
  • Platt A; Ravagnani A; Arst H; Kirk D; Langdon T; Caddick M. (1996). Mutational analysis of the C-terminal region of AREA, the transcription factor mediating nitrogen metabolite repression in Aspergillus nidulans. Molecular Gen Genet. 250:106-114.
  • Tilburn J; Sánchez-Ferrero JC; Reoyo E; Arst HN; Peñalva MA. (Sep 2005). Mutational analysis of the pH signal transduction component PalC of Aspergillus nidulans supports distant similarity to BRO1 domain family members. Genetics. 171:393-401. DOI.
  • Langdon T; Sheerins A; Ravagnani A; Gielkens M; Caddick MX; Arst HN. (Apr 1996). Mutational analysis reveals dispensability of the N-terminal region of the Aspergillus transcription factor mediating nitrogen metabolite repression (vol 17, pg 877, 1995). MOL MICROBIOL. 20:239-239.
  • Langdon T; Sheerins A; Ravagnani A; Gielkens M; Caddick MX; Arst HN. (Sep 1995). Mutational analysis reveals dispensability of the N-terminal region of the Aspergillus transcription factor mediating nitrogen metabolite repression. Mol Microbiol. 17:877-888.
  • Rand KN; Arst HN. (20 Apr 1978). Mutations in nirA gene of Aspergillus nidulans and nitrogen metabolism. Nature. 272:732-734.
  • TOLLERVEY DW; ARST HN. (1981). MUTATIONS TO CONSTITUTIVITY AND DEREPRESSION ARE SEPARATE AND SEPARABLE IN A REGULATORY GENE OF ASPERGILLUS-NIDULANS. CURR GENET. 4:63-68.
  • Arst HN. (May 1997). New evidence for old detective work. MICROBIOL-UK. 143:1481-1482.
  • ARST HN; SCAZZOCC.C. (1974). NEW REGULATORY MUTATION AFFECTING URIC ACID-XANTHINE PERMEASE IN ASPERGILLUS-NIDULANS. HEREDITY. 32:285-285.
  • Brownlee AG; Arst HN. (Sep 1983). Nitrate uptake in Aspergillus nidulans and involvement of the third gene of the nitrate assimilation gene cluster. J Bacteriol. 155:1138-1146.
  • Wiame JM; Grenson M; Arst HN. (1985). Nitrogen catabolite repression in yeasts and filamentous fungi. Adv Microb Physiol. 26:1-88.
  • Arst HN; Cove DJ. (2 Nov 1973). Nitrogen metabolite repression in Aspergillus nidulans. Mol Gen Genet. 126:111-141.
  • ARST HN; COVE DJ. (1974). NITROGEN METABOLITE REPRESSION IN ASPERGILLUS-NIDULANS. HEREDITY. 32:284-284.
  • ARST HN; BROWNLEE AG; COUSEN SA. (1982). NITROGEN METABOLITE REPRESSION IN ASPERGILLUS-NIDULANS - A FAREWELL TO TAMA. CURR GENET. 6:245-257.
  • SHAFFER PM; ARST HN. (1985). NITROGEN METABOLITE REPRESSION OF A PYRIMIDINE SALVAGE PATHWAY ENZYME IN ASPERGILLUS-NIDULANS. HEREDITY. 54:421-421.
  • Platt A; Langdon T; Arst HN; Kirk D; Tollervey D; Sanchez JM; Caddick MX. (3 Jun 1996). Nitrogen metabolite signalling involves the C-terminus and the GATA domain of the Aspergillus transcription factor AREA and the 3' untranslated region of its mRNA. EMBO J. 15:2791-2801.
  • Caddick MX; Arst HN. (30 Oct 1990). Nitrogen regulation in Aspergillus: are two fingers better than one?. Gene. 95:123-127.
  • Morozov IY; Negrete-Urtasun S; Tilburn J; Jansen CA; Caddick MX; Arst HN. (Nov 2006). Nonsense-mediated mRNA decay mutation in Aspergillus nidulans. Eukaryot Cell. 5:1838-1846. DOI.
  • RAND KN; ARST HN. (1977). NOVEL REGULATORY MUTATION IN ASPERGILLUS-NIDULANS. HEREDITY. 39:433-433.
  • Espeso EA; Roncal T; Diez E; Rainbow L; Bignell E; Alvaro J; Suarez T; Denison SH; et alTilburn J; Arst HN; Penalva MA. (15 May 2000). On how a transcription factor can avoid its proteolytic activation in the absence of signal transduction. EMBO J. 19:2391-2391.
  • Espeso EA; Roncal T; Díez E; Rainbow L; Bignell E; Alvaro J; Suárez T; Denison SH; et alTilburn J; Arst HN; Peñalva MA. (15 Feb 2000). On how a transcription factor can avoid its proteolytic activation in the absence of signal transduction. EMBO J. 19:719-728. DOI.
  • Espeso EA; Arst HN. (May 2000). On the mechanism by which alkaline pH prevents expression of an acid-expressed gene. Mol Cell Biol. 20:3355-3363.
  • SHARMA KK; ARST HN. (1985). ON THE NATURE OF THE REGULATORY GENE OF THE PROLINE CATABOLISM GENE-CLUSTER OF ASPERGILLUS-NIDULANS. HEREDITY. 54:421-421.
  • Flipphi M; van de Vondervoort PJ; Ruijter GJ; Visser J; Arst HN; Felenbok B. (4 Apr 2003). Onset of carbon catabolite repression in Aspergillus nidulans. Parallel involvement of hexokinase and glucokinase in sugar signaling. J Biol Chem. 278:11849-11857. DOI.
  • Fernández-Martínez J; Brown CV; Díez E; Tilburn J; Arst HN; Peñalva MA; Espeso EA. (5 Dec 2003). Overlap of nuclear localisation signal and specific DNA-binding residues within the zinc finger domain of PacC. J Mol Biol. 334:667-684.
  • Galindo A; Hervas-Aguilar A; Rodriguez-Galan O; Vincent O; Arst HN; Tilburn J; Penalva MA. (Oct 2007). PalC, one of two Bro1 domain proteins in the fungal pH signaling pathway, localizes to cortical structures and binds Vps32. Traffic. 8:1346-1364.
  • Elorza MV; Arst HN; Cove DJ; Scazzocchio C. (Jul 1969). Permeability properties of Aspergillus nidulans protoplasts. J Bacteriol. 99:113-115.
  • ARST HN. (Jun 1986). PH AND THE CONTROL OF GENE-EXPRESSION. MICROBIOL SCI. 3:189-190.
  • Arst HN; Peñalva MA. (Apr 2003). pH regulation in Aspergillus and parallels with higher eukaryotic regulatory systems. Trends Genet. 19:224-231.
  • Espeso EA; Tilburn J; Arst HN; Peñalva MA. (Oct 1993). pH regulation is a major determinant in expression of a fungal penicillin biosynthetic gene. EMBO J. 12:3947-3956.
  • Shah AJ; Tilburn J; Adlard MW; Arst HN. (15 Jan 1991). pH regulation of penicillin production in Aspergillus nidulans. FEMS Microbiol Lett. 61:209-212.
  • SHAH AJ; TILBURN J; ADLARD MW; ARST HN. (15 Jan 1991). PH REGULATION OF PENICILLIN PRODUCTION IN ASPERGILLUS-NIDULANS. FEMS MICROBIOL LETT. 77:209-212.
  • Caddick MX; Brownlee AG; Arst HN. (Apr 1986). Phosphatase regulation in Aspergillus nidulans: responses to nutritional starvation. Genet Res. 47:93-102.
  • CADDICK MX; BROWNLEE AG; ARST HN. (1985). PHOSPHATASES OF ASPERGILLUS-NIDULANS - THEIR GENETIC AND PHYSIOLOGICAL CONTROL. HEREDITY. 54:418-418.
  • Rodriguez-Galan O; Galindo A; Hervas-Aguilar A; Arst HN; Penalva MA. (13 Feb 2009). Physiological Involvement in pH Signaling of Vps24-mediated Recruitment of Aspergillus PalB Cysteine Protease to ESCRT-III. J BIOL CHEM. 284:4404-4412. DOI.
  • ARST HN. (Jan 1986). PREVENTING PROTEOLYSIS. MICROBIOL SCI. 3:12-13.
  • ARST HN; MACDONALD DW; JONES SA. (1977). PRN GENE CLUSTER IN ASPERGILLUS-NIDULANS. HEREDITY. 39:434-434.
  • Denison SH; Negrete-Urtasun S; Mingot JM; Tilburn J; Mayer WA; Goel A; Espeso EA; Peñalva MA; et alArst HN. (Jan 2001). Putative membrane components of signal transduction pathways for ambient pH regulation in Aspergillus and meiosis in Saccharomyces are homologous Addendum. Mol Microbiol. 39:211.
  • Denison SH; Negrete-Urtasun S; Mingot JM; Tilburn J; Mayer WA; Goel A; Espeso EA; Peñalva MA; et alArst HN. (Oct 1998). Putative membrane components of signal transduction pathways for ambient pH regulation in Aspergillus and meiosis in saccharomyces are homologous. Mol Microbiol. 30:259-264.
  • Ravagnani A; Arst HN. (11 Aug 1995). Quantitation of oligohistidine fusion proteins using 63Ni2+ chelation. Nucleic Acids Res. 23:3069-3070.
  • BROWNLEE AG; ARST HN. (1984). QUENCH CORRECTION OF INCORPORATED C-14 IN ASPERGILLUS-NIDULANS COUNTED ON FILTER DISKS. J MICROBIOL METH. 2:83-91.
  • BROWNLEE AG; ARST HN. (1984). QUENCH CORRECTION OF INCORPORATED C-14 IN ASPERGILLUS-NIDULANS COUNTED ON FILTER DISKS - A CAUTIONARY NOTE. HEREDITY. 52:457-457.
  • Arst HN; Nicholas HB; Caddick MX. (1 Aug 2003). Re: Watts et al. Proteins 2002;48:161-168. Proteins. 52:125-128. DOI.
  • Peñalva MA; Arst HN. (2004). Recent advances in the characterization of ambient pH regulation of gene expression in filamentous fungi and yeasts. Annu Rev Microbiol. 58:425-451. DOI.
  • Arst HN; Peñalva MA. (Oct 2003). Recognizing gene regulation by ambient pH. Fungal Genet Biol. 40:1-3.
  • Arst HN; MacDonald DW. (6 Jul 1978). Reduced expression of a distal gene of the prn gene cluster in deletion mutants of Aspergillus nidulans: genetic evidence for a dicistronic messenger in an eukaryote. Mol Gen Genet. 163:17-22.
  • Hensel M; Tang CM; Arst HN; Holden DW. (1995). Regulation of fungal extracellular proteases and their role in pathogenesis. Canadian Journal of Botany. 73.
  • Sarkar S; Caddick MX; Bignell E; Tilburn J; Arst HN. (May 1996). Regulation of gene expression by ambient pH in Aspergillus: genes expressed at acid pH. Biochem Soc Trans. 24:360-363.
  • Sarkar S; Caddick MX; Bignell E; Tilburn J; Arst HN. (Dec 2004). Regulation of gene expression by ambient pH in Aspergillus: genes expressed at acidic pH (vol 24, pg 360, 1996). BIOCHEM SOC T. 32:1133-1133.
  • Penalva MA; Arst HN. (Sep 2002). Regulation of gene expression by ambient pH in filamentous fungi and yeasts. MICROBIOL MOL BIOL R. 66:426-+. DOI.
  • Peñalva MA; Arst HN. (Sep 2002). Regulation of gene expression by ambient pH in filamentous fungi and yeasts. Microbiol Mol Biol Rev. 66:426-446.
  • Arst HN. (1994). Regulation of gene expression by oxygen, phosphorus and pH. Prog Ind Microbiol. 29:369-380.
  • Caddick MX; Brownlee AG; Arst HN. (May 1986). Regulation of gene expression by pH of the growth medium in Aspergillus nidulans. Mol Gen Genet. 203:346-353.
  • Arst HN. (Sep 1984). Regulation of gene expression in Aspergillus nidulans. Microbiol Sci. 1:137-141.
  • ARST HN; MACDONALD DW; JONES SA. (1980). REGULATION OF PROLINE TRANSPORT IN ASPERGILLUS-NIDULANS. J GEN MICROBIOL. 116:285-294.
  • Shaffer PM; Arst HN. (1984). Regulation of pyrimidine salvage in Aspergillus nidulans: a role for the major regulatory gene are A mediating nitrogen metabolite repression. Mol Gen Genet. 198:139-145.
  • SHAFFER PM; ARST HN. (1982). REGULATION OF THYMIDINE UPTAKE AND METABOLISM IN ASPERGILLUS-NIDULANS. FED PROC. 41:753-753.
  • Stahmann KP; Arst HN; Althöfer H; Revuelta JL; Monschau N; Schlüpen C; Gätgens C; Wiesenburg A; et alSchlösser T. (Sep 2001). Riboflavin, overproduced during sporulation of Ashbya gossypii, protects its hyaline spores against ultraviolet light. Environ Microbiol. 3:545-550.
  • ARST HN. (1972). SECOND METHYLAMMONIUM RESISTANCE LOCUS IN ASPERGILLUS-LNIDULANS. HEREDITY. 29:121-&.
  • Schrettl M; Bignell E; Kragl C; Joechl C; Rogers T; Arst HN; Haynes K; Haas H. (1 Nov 2004). Siderophore biosynthesis but not reductive iron assimilation is essential for Aspergillus fumigatus virulence. J Exp Med. 200:1213-1219. DOI.
  • Denison SH; Orejas M; Arst HN. (1 Dec 1995). Signaling of ambient pH in Aspergillus involves a cysteine protease. J Biol Chem. 270:28519-28522.
  • Arst HN. (28 Feb 1977). Some genetical aspects of ornithine metabolism in Aspergillus nidulans. Mol Gen Genet. 151:105-110.
  • Elorza MV; Arst HN. (1971). Sorbose resistant mutants of Aspergillus nidulans. Mol Gen Genet. 111:185-193.
  • ELORZA MV; ARST HN. (1971). SORBOSE RESISTANT MUTANTS OF ASPERGILLUS-NIDULANS. MOL GEN GENET. 111:185-&.
  • Espeso EA; Tilburn J; Sánchez-Pulido L; Brown CV; Valencia A; Arst HN; Peñalva MA. (12 Dec 1997). Specific DNA recognition by the Aspergillus nidulans three zinc finger transcription factor PacC. J Mol Biol. 274:466-480. DOI.
  • Mingot JM; Tilburn J; Diez E; Bignell E; Orejas M; Widdick DA; Sarkar S; Brown CV; et alCaddick MX; Espeso EA; Arst HN; Peñalva MA. (Feb 1999). Specificity determinants of proteolytic processing of Aspergillus PacC transcription factor are remote from the processing site, and processing occurs in yeast if pH signalling is bypassed. Mol Cell Biol. 19:1390-1400.
  • Caddick MX; Arst HN. (Apr 1986). Structural genes for phosphatases in Aspergillus nidulans. Genet Res. 47:83-91.
  • Ravagnani A; Gorfinkiel L; Langdon T; Diallinas G; Adjadj E; Demais S; Gorton D; Arst HN; et alScazzocchio C. (1 Jul 1997). Subtle hydrophobic interactions between the seventh residue of the zinc finger loop and the first base of an HGATAR sequence determine promoter-specific recognition by the Aspergillus nidulans GATA factor AreA. EMBO J. 16:3974-3986. DOI.
  • ARST HN. (1985). SYNTHETIC DEOXYOLIGONUCLEOTIDES - INCREASED CLONING VERSATILITY. MICROBIOL SCI. 2:240-240.
  • Arst HN. (Aug 1985). Synthetic deoxyoligonucleotides: increased cloning versatility. Microbiol Sci. 2:240.
  • BROWNLEE AG; ARST HN. (1982). THE 3RD GENE OF THE NITRATE ASSIMILATION GENE-CLUSTER OF ASPERGILLUS-NIDULANS IS INVOLVED IN NITRATE UPTAKE. HEREDITY. 48:321-321.
  • Conlon H; Zadra I; Haas H; Arst HN; Jones MG; Caddick MX. (Apr 2001). The Aspergillus nidulans GATA transcription factor gene areB encodes at least three proteins and features three classes of mutation. Mol Microbiol. 40:361-375.
  • Tilburn J; Sarkar S; Widdick DA; Espeso EA; Orejas M; Mungroo J; Peñalva MA; Arst HN. (15 Feb 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.
  • Bignell E; Negrete-Urtasun S; Calcagno AM; Haynes K; Arst HN; Rogers T. (Feb 2005). The Aspergillus pH-responsive transcription factor PacC regulates virulence. Mol Microbiol. 55:1072-1084. DOI.
  • Arst HN. (Oct 1977). The basis for an apparent auxotrophy for reduced sulphur metabolites in sF- mutants of Aspergillus nidulans. Genet Res. 30:207-210.
  • ARST HN; BROWNLEE AG; COUSEN SA. (1983). THE CASE OF THE MISSING MUTANTS OR DOES TAMA PLAY A ROLE IN NITROGEN METABOLITE REPRESSION IN ASPERGILLUS-NIDULANS. HEREDITY. 51:529-529.
  • Crawford NM; Arst HN. (1993). The molecular genetics of nitrate assimilation in fungi and plants. Annu Rev Genet. 27:115-146. DOI.
  • Hutchings H; Stahmann KP; Roels S; Espeso EA; Timberlake WE; Arst HN; Tilburn J. (May 1999). The multiply-regulated gabA gene encoding the GABA permease of Aspergillus nidulans: a score of exons. Mol Microbiol. 32:557-568.
  • Scazzocchio C; Arst HN. (13 Jul 1978). The nature of an initiator constitutive mutation in Aspergillus nidulans. Nature. 274:177-179.
  • Sharma KK; Arst HN. (1985). The product of the regulatory gene of the proline catabolism gene cluster of Aspergillus nidulans is a positive-acting protein. Curr Genet. 9:299-304.
  • Kudla B; Caddick MX; Langdon T; Martinez-Rossi NM; Bennett CF; Sibley S; Davies RW; Arst HN. (May 1990). The regulatory gene areA mediating nitrogen metabolite repression in Aspergillus nidulans. Mutations affecting specificity of gene activation alter a loop residue of a putative zinc finger. EMBO J. 9:1355-1364.
  • Hensel M; Arst HN; Aufauvre-Brown A; Holden DW. (Jun 1998). The role of the Aspergillus fumigatus areA gene in invasive pulmonary aspergillosis. Mol Gen Genet. 258:553-557.
  • Starich MR; Wikström M; Arst HN; Clore GM; Gronenborn AM. (3 Apr 1998). The solution structure of a fungal AREA protein-DNA complex: an alternative binding mode for the basic carboxyl tail of GATA factors. J Mol Biol. 277:605-620. DOI.
  • Starich MR; Wikström M; Schumacher S; Arst HN; Gronenborn AM; Clore GM. (3 Apr 1998). The solution structure of the Leu22-->Val mutant AREA DNA binding domain complexed with a TGATAG core element defines a role for hydrophobic packing in the determination of specificity. J Mol Biol. 277:621-634. DOI.
  • MacDonald DW; Arst HN; Cove DJ. (7 Aug 1974). The threonine dehydratase structural gene in Aspergillus nidulans. Biochim Biophys Acta. 362:60-65.
  • SHARMA KK; ARST HN. (1982). THE USE OF DELETION MUTATIONS TO DETERMINE PROBABLE TRANSCRIPT SIZE IN THE PROLINE CATABOLISM GENE-CLUSTER OF ASPERGILLUS-NIDULANS. HEREDITY. 48:322-322.
  • Gunatilleke IA; Arst HN; Scazzocchio C. (Dec 1975). Three genes determine the carboxin sensitivity of mitochondrial succinate oxidation in aspergillus nidulans. Genet Res. 26:297-305.
  • ARST HN. (8 Feb 1993). TRANSCRIPTION FACTORS MEDIATING NITROGEN METABOLITE REPRESSION AND PH REGULATION IN ASPERGILLUS-NIDULANS. J CELL BIOCHEM. 131-131.
  • Arst HN; Sheerins A. (May 1996). Translational initiation competence, 'leaky scanning' and translational reinitiation in areA mRNA of Aspergillus nidulans (vol 19, pg 1019, 1996). MOL MICROBIOL. 20:901-901.
  • Arst HN; Sheerins A. (Mar 1996). Translational initiation competence, 'leaky scanning' and translational reinitiation in areA mRNA of Aspergillus nidulans. Mol Microbiol. 19:1019-1024.
  • Arst HN; Bignell E; Tilburn J. (15 Dec 1994). Two new genes involved in signalling ambient pH in Aspergillus nidulans. Mol Gen Genet. 245:787-790.
  • Spielvogel A; Findon H; Arst HN; Araújo-Bazán L; Hernández-Ortíz P; Stahl U; Meyer V; Espeso EA. (15 Sep 2008). Two zinc finger transcription factors, CrzA and SltA, are involved in cation homoeostasis and detoxification in Aspergillus nidulans. Biochem J. 414:419-429. DOI.
  • Bignell E; Negrete-Urtasun S; Calcagno AM; Arst HN; Rogers T; Haynes K. (Aug 2005). Virulence comparisons of Aspergillus nidulans mutants are confounded by the inflammatory response of p47phox-/- mice. Infect Immun. 73:5204-5207. DOI.
  • Tang CM; Smith JM; Arst HN; Holden DW. (Dec 1994). Virulence studies of Aspergillus nidulans mutants requiring lysine or p-aminobenzoic acid in invasive pulmonary aspergillosis. Infect Immun. 62:5255-5260.
  • Vincent O; Rainbow L; Tilburn J; Arst HN; Peñalva MA. (Mar 2003). YPXL/I is a protein interaction motif recognized by aspergillus PalA and its human homologue, AIP1/Alix. Mol Cell Biol. 23:1647-1655.

Chapters in books

  • Arst HN. Aspects of the control of gene expression in fungi. In Genetics as a tool in Microbiology. 131-160. Glover SW (ed); Hopwood DA (ed). Cambridge University Press (1981).
  • Arst HN; Scazzocchio C. Formal genetics and molecular biology of the control of gene expression in Aspergillus nidulans. In Gene manipulations in fungi. 309-343. Bennett JW (ed); Lasure LL (ed). Academic Press, New York (1984).
  • Arst HN. Fungal systems. In Eukaryotic genes: their structure, activity and regulation. 433-450. Maclean N (ed); Gregory SP (ed); Flavell RA (ed). Butterworths, London (1983).
  • Arst HN Jr; Tilburn J. Regulation of gene expression by ambient pH. In The Mycota: Biochemistry and Molecular Biology, 2nd ed. III:121-128. Brambl R (ed); Marzluf GA (ed). Springer-Verlag, Berlin (2004).
  • Arst HN Jr; Tilburn J. Regulation of gene expression by ambient pH. In The Mycota Vol. III. Biochemistry and Molecular Biology. 2nd, 3:121-128. Brambl R (ed); Marzluf GA (ed). Springer-Verlag, Berlin (2004).
  • Arst HN; Sheerins A. Regulation of gene expression by pH. In The Mycota. 235-240. Brambl R (ed); Marzluf GA (ed). Springer-Verlag, Berlin (1996).
  • Scazzocchio C; Arst HN. Regulation of nitrate assimilation in Aspergillus nidulans. In Molecular and genetic aspects of nitrate assimilation. 299-313. Wray JL (ed); Kinghorn JR (ed). Oxford University Press, Oxford (1989).
  • Arst HN; Bailey CR. The regulation of carbon metabolism in Aspergillus nidulans. In Genetics and physiology of Aspergillus. 131-146. Smith JE (ed); Pateman JA (ed). Academic Press, London (1977).
  • Arst HN. Wide domain regulation of gene expression in Aspergillus nidulans with special attention to the role of the meaB gene. In 6th International Symposium on Genetics of Industrial Microorganisms (GIM 90) Proceedings. 555-556. Heslot H (ed); Davies J (ed); Florent J (ed); Bobichon L (ed); Durand G (ed); Penasse L (ed). Societe Francaise de Microbiologie, Paris (1990).

Conferences

  • ARST HN. Nitrogen metabolite repression in Aspergillus nidulans: An historical perspective. 5th International Mycological Congress. 73:S148-S152. (1995).
  • ARST HN. NITROGEN METABOLITE REPRESSION IN ASPERGILLUS-NIDULANS - AN HISTORICAL-PERSPECTIVE. 73:S148-S152. (1995).
  • HENSEL M; TANG CM; ARST HN; HOLDEN DW. REGULATION OF FUNGAL EXTRACELLULAR PROTEASES AND THEIR ROLE IN MAMMALIAN PATHOGENESIS. 73:S1065-S1070. (1995).
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