Jutta Maier scite author profile

Indications for the occurrence of nitric oxide synthases in Dictyostelium, Neurospora, Phycomyces and the leguminous plant Mucuna hassjoo as well as a physiological role of nitric oxide in Neurospora crassa are demonstrated. An exogenous nitic oxide donor, sodium nitroprusside, inhibited light-stimulated conidiation in N. crassa. Specific inhibitors of nitric oxide synthase, like the arginine derivatives NG -nitro-L-arginine (L-NA) and NG-nitro-L-arginine-methyl ester (L-NAME), enhanced conidiation in darkness nad in the light, whereas the stereoisomer D-NAME was inactive. This communication reports to our knowledge the first time the presence of enzymatic activity of nitric oxide synthase in fungi and a higher plant and an effect of nitric oxide in fungal photo-physiology.

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Biochemical Analysis of Matrix Metalloproteinase Activation of Chemokines CCL15 and CCL23 and Increased Glycosaminoglycan Binding of CCL16

Starr

Dufour

Maier

et al. 2012

Journal of Biological Chemistry

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Background: Proteases responsible for a CCL15-(25–92) product have not been elucidated.Results: All 14 CC monocyte chemoattractants, including CCL15, are processed by multiple MMPs.Conclusion: MMP-processing of CCL15, CCL23, and CCL16 functional activity is altered by MMP processing.Significance: This is the first study showing MMPs can activate CC chemokines and hence monoycte chemoattraction with potential to propagate inflammation.

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O-Linked Glycosylation of the PilA Pilin Protein of Francisella tularensis: Identification of the Endogenous Protein-Targeting Oligosaccharyltransferase and Characterization of the Native Oligosaccharide

et al. 2011

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Findings from a number of studies suggest that the PilA pilin proteins may play an important role in the pathogenesis of disease caused by species within the genus Francisella. As such, a thorough understanding of PilA structure and chemistry is warranted. Here, we definitively identified the PglA protein-targeting oligosaccharyltransferase by virtue of its necessity for PilA glycosylation in Francisella tularensis and its sufficiency for PilA glycosylation in Escherichia coli. In addition, we used mass spectrometry to examine PilA affinity purified from Francisella tularensis subsp. tularensis and F. tularensis subsp. holarctica and demonstrated that the protein undergoes multisite, O-linked glycosylation with a pentasaccharide of the structure HexNac-HexHex-HexNac-HexNac. Further analyses revealed microheterogeneity related to forms of the pentasaccharide carrying unusual moieties linked to the distal sugar via a phosphate bridge. Type A and type B strains of Francisella subspecies thus express an O-linked protein glycosylation system utilizing core biosynthetic and assembly pathways conserved in other members of the proteobacteria. As PglA appears to be highly conserved in Francisella species, O-linked protein glycosylation may be a feature common to members of this genus.

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Seasonality in UV-absorbing compounds of cyanobacterial mat communities from an intertidal mangrove flat

Karsten

Maier

García-Pichel

1998

Aquat. Microb. Ecol.

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Biomass and the concentrations of the UV-absorbing compounds scytonemin, pterins and mycosporine-like amino acid compounds (MAAs) were determined in a seasonal study of a cyanobacterial mat growing on an intertidal mangrove sediment at Towra Point, Sydney, Australia. The community was dominated by the filamentous cyanobacteria Lyngbya cf. aestuarii and Microcoleus chthonoplastes. While the first occurred as a thin compact layer on top of the mat without any obvious indcation of growth over the course of the study, the latter formed a layer underneath Lyngbya and showed an increase in the thickness of the layer after the summer period. The sheath pigment scytonemin was only formed by L. cf. aestuarii and represented at all sampling dates the quantitatively most important UV-absorbing compound, ranglng from 140 to 1300 mg m-'. The areal scytonemin content seemed to follow the seasonally fluctuating solar intensity In contrast, the areal contents of pterins and MAAs did not increase under elevated solar radiation conditions. The data indicate the importance and effectiveness of scytonemin deposition in the outer sheaths of L. cf. aestuarii as a sunscreen for the entire benthic community underneath.

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Role of Nitric Oxide Synthase in the Light-Induced Development of Sporangiophores in Phycomyces blakesleeanus

Maier

Hecker

Rockel

et al. 2001

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Blue light controls the development of sporangiophores in the zygomycete Phycomyces blakesleeanus Burgeff. Light represses the production of microsporangiophores and enhances the development of macrosporangiophores. Inhibition of the biosynthesis of tetrahydrobiopterin, a cofactor of NO synthase, inhibits this photomorphogenesis. Light induces production of citrulline from arginine in the mycelium and in sporangiophores. The citrulline-forming activity is dependent on NADPH, independent of calcium, and inhibited by NO synthase inhibitors. It is reduced in tetrahydrobiopterin-depleted mycelium. Light induces emission of NO from the developing fungus in the same order of magnitude as citrulline formation from arginine. The NO donor sodium nitroprusside can replace the light effect on sporangiophore development, and inhibitors of NO synthase repress it. We suggest that a fungal NO synthase is involved in sporangiophore development and propose its participation in light signaling.

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What's in the genome of a filamentous fungus? Analysis of the Neurospora genome sequence

Mannhaupt

Montrone

Haase

et al. 2003

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The German Neurospora Genome Project has assembled sequences from ordered cosmid and BAC clones of linkage groups II and V of the genome of Neurospora crassa in 13 and 12 contigs, respectively. Including additional sequences located on other linkage groups a total of 12 Mb were subjected to a manual gene extraction and annotation process. The genome comprises a small number of repetitive elements, a low degree of segmental duplications and very few paralogous genes. The analysis of the 3218 identified open reading frames provides a first overview of the protein equipment of a filamentous fungus. Significantly, N.crassa possesses a large variety of metabolic enzymes including a substantial number of enzymes involved in the degradation of complex substrates as well as secondary metabolism. While several of these enzymes are specific for filamentous fungi many are shared exclusively with prokaryotes.

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Modular Construction of a Functional Artificial Epothilone Polyketide Pathway

et al. 2012

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Natural products of microbial origin continue to be an important source of pharmaceuticals and agrochemicals exhibiting potent activities and often novel modes of action. Due to their inherent structural complexity chemical synthesis is often hardly possible, leaving fermentation as the only viable production route. In addition, the pharmaceutical properties of natural products often need to be optimized for application by sophisticated medicinal chemistry and/or biosynthetic engineering. The latter requires a detailed understanding of the biosynthetic process and genetic tools to modify the producing organism that are often unavailable. Consequently, heterologous expression of complex natural product pathways has been in the focus of development over recent years. However, piecing together existing DNA cloned from natural sources and achieving efficient expression in heterologous circuits represent several limitations that can be addressed by synthetic biology. In this work we have redesigned and reassembled the 56 kb epothilone biosynthetic gene cluster from Sorangium cellulosum for expression in the high GC host Myxococcus xanthus. The codon composition was adapted to a modified codon table for M. xanthus, and unique restriction sites were simultaneously introduced and others eliminated from the sequence in order to permit pathway assembly and future interchangeability of modular building blocks from the epothilone megasynthetase. The functionality of the artificial pathway was demonstrated by successful heterologous epothilone production in M. xanthus at significant yields that have to be improved in upcoming work. Our study sets the stage for future engineering of epothilone biosynthesis and production optimization using a highly flexible assembly strategy.

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BIOSYNTHESIS OF PTERIDINES IN Neurospora crassa, Phycomyces blakesleeanus AND Euglena gracilis: DETECTION AND CHARACTERIZATION OF BIOSYNTHETIC ENZYMES*^,†

Maier

Ninnemann

1995

Photochem & Photobiology

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Occurrence, biosynthesis and some functions of tetrahydrobiopterin (H4biopterin) in animals are well known. The biochemistry of H4biopterin in other organisms than animals was hitherto not widely investigated. Recently H4biopterin was found in the phytoflagellate Euglena gracilis, in the zygomycete Phycomyces blakesleeanus and in the ascomycete Neurospora crassa. In Euglena, Neurospora and Phycomyces the enzymatic activities of GTP cyclohydrolase I, 6-pyruvoyl tetrahydropterin synthase and sepiapterin reductase are detectable and the biosynthesis follows the same steps as were shown for animals. The biosynthetic enzymes, however, show a much lower sensitivity to those inhibitors that act on vertebrate enzymes. 2,4-Diamino-6-hydroxypyrimidine as inhibitor of GTP cyclohydrolase I and N-acetylserotonin or N-methoxyacetylserotonin as inhibitors of sepiapterin reductase can decrease pteridine biosynthesis significantly, in vitro and in vivo. The apparent Km values are in general higher when compared with the respective animal enzymes. In Neurospora, the conversion of GTP to dihydroneopterin triphosphate was closely associated with subsequent production of 6-hydroxymethyl-7,8-dihydropterin due to the high activity of dihydroneopterin aldolase, different from all other tested organisms. Investigations involving inhibition of pteridine synthesis might be a useful tool for evaluating the hypothesis that pteridines in fungi and plants are co-chromophores of various blue light-dependent, flavin-containing photoreceptors.

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Jutta Maier

Indications for the Occurrence of Nitric Oxide Synthases in Fungi and Plants and the Involvement in Photoconidiation of *Neurospora crassa**

Biochemical Analysis of Matrix Metalloproteinase Activation of Chemokines CCL15 and CCL23 and Increased Glycosaminoglycan Binding of CCL16

O-Linked Glycosylation of the PilA Pilin Protein of Francisella tularensis: Identification of the Endogenous Protein-Targeting Oligosaccharyltransferase and Characterization of the Native Oligosaccharide

Seasonality in UV-absorbing compounds of cyanobacterial mat communities from an intertidal mangrove flat

Role of Nitric Oxide Synthase in the Light-Induced Development of Sporangiophores in Phycomyces blakesleeanus

What's in the genome of a filamentous fungus? Analysis of the Neurospora genome sequence

Modular Construction of a Functional Artificial Epothilone Polyketide Pathway

BIOSYNTHESIS OF PTERIDINES IN Neurospora crassa, Phycomyces blakesleeanus AND Euglena gracilis: DETECTION AND CHARACTERIZATION OF BIOSYNTHETIC ENZYMES*^,†

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Jutta Maier

Indications for the Occurrence of Nitric Oxide Synthases in Fungi and Plants and the Involvement in Photoconidiation of Neurospora crassa*

Biochemical Analysis of Matrix Metalloproteinase Activation of Chemokines CCL15 and CCL23 and Increased Glycosaminoglycan Binding of CCL16

O-Linked Glycosylation of the PilA Pilin Protein of Francisella tularensis: Identification of the Endogenous Protein-Targeting Oligosaccharyltransferase and Characterization of the Native Oligosaccharide

Seasonality in UV-absorbing compounds of cyanobacterial mat communities from an intertidal mangrove flat

Role of Nitric Oxide Synthase in the Light-Induced Development of Sporangiophores in Phycomyces blakesleeanus

What's in the genome of a filamentous fungus? Analysis of the Neurospora genome sequence

Modular Construction of a Functional Artificial Epothilone Polyketide Pathway

BIOSYNTHESIS OF PTERIDINES IN Neurospora crassa, Phycomyces blakesleeanus AND Euglena gracilis: DETECTION AND CHARACTERIZATION OF BIOSYNTHETIC ENZYMES*,†

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Product

Resources

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Indications for the Occurrence of Nitric Oxide Synthases in Fungi and Plants and the Involvement in Photoconidiation of *Neurospora crassa**

BIOSYNTHESIS OF PTERIDINES IN Neurospora crassa, Phycomyces blakesleeanus AND Euglena gracilis: DETECTION AND CHARACTERIZATION OF BIOSYNTHETIC ENZYMES*^,†