نتایج جستجو برای: hansenula polymorpha

تعداد نتایج: 1687  

Journal: :The EMBO journal 1997
M Komori S W Rasmussen J A Kiel R J Baerends J M Cregg I J van der Klei M Veenhuis

We have cloned the Hansenula polymorpha PEX14 gene by functional complementation of the chemically induced pex14-1 mutant, which lacked normal peroxisomes. The sequence of the PEX14 gene predicts a novel protein product (Pex14p) of 39 kDa which showed no similarity to any known protein and lacked either of the two known peroxisomal targeting signals. Biochemical and electron microscopical analy...

2014
Sasi Sigawi Marina Nisnevitch Oksana Zakalska Andriy Zakalskiy Yeshayahu Nitzan Mykhailo Gonchar

Aliphatic amines, including methylamine, are air-pollutants, due to their intensive use in industry and the natural degradation of proteins, amino acids, and other nitrogen-containing compounds in biological samples. It is necessary to develop systems for removal of methylamine from the air, since airborne methylamine has a negative effect on human health. The primary amine oxidase (primary ami...

Journal: :FEMS microbiology reviews 2002
José M Siverio

Nitrate assimilation has received much attention in filamentous fungi and plants but not so much in yeasts. Recently the availability of classical genetic and molecular biology tools for the yeast Hansenula polymorpha has allowed the advance of the study of this metabolic pathway in yeasts. The genes YNT1, YNR1 and YNI1, encoding respectively nitrate transport, nitrate reductase and nitrite red...

Journal: :Journal of bacteriology 1992
J Vonck E F van Bruggen

The architecture of alcohol oxidase crystalloids occurring in vivo in the peroxisomes of methylotrophic yeasts was deduced from electron micrographs of similar crystals of the Hansenula polymorpha enzyme grown in vitro. Three characteristic views of the crystal are observed, as well as single layers in the very early stages of crystal formation. The crystal is concluded to be cubical, with ever...

Journal: :Microbial Cell Factories 2008
Beate Pscheidt Anton Glieder

This review gives an overview of different yeast strains and enzyme classes involved in yeast whole-cell biotransformations. A focus was put on the synthesis of compounds for fine chemical and API (= active pharmaceutical ingredient) production employing single or only few-step enzymatic reactions. Accounting for recent success stories in metabolic engineering, the construction and use of synth...

Journal: :The Journal of biological chemistry 2004
Marleen Otzen Uta Perband Dongyuan Wang Richard J S Baerends Wolf H Kunau Marten Veenhuis Ida J Van der Klei

We have cloned and characterized the Hansenula polymorpha PEX19 gene. In cells of a pex19 disruption strain (Hppex19), induced on methanol, peroxisome structures were not detectable; peroxisomal matrix proteins accumulated in the cytosol, whereas peroxisomal membrane proteins (PMPs) were mislocalized to the cytosol (Pex3p) and mitochondria (Pex14p) or strongly reduced to undetectable levels (Pe...

Journal: :FEBS letters 1989
I J Van der Klei C L Lawson H Rozeboom B W Dijkstra M Veenhuis W Harder W G Hol

Alcohol oxidase, purified from the yeast Hansenula polymorpha, was crystallized in vitro for the purpose of determining its structure at atomic resolution by X-ray diffraction methods. The crystals obtained yielded only extremely weak diffraction patterns: the maximal resolution observed was in the best case 6 A. Electron microscopy of thin sections indicated that most crystals showed lattice d...

Journal: :FEMS microbiology letters 1992
V I Titorenko H R Waterham P Haima W Harder M Veenhuis

In Hansenula polymorpha, different monogenic recessive mutations mapped in either of two previously identified genes, PER1 and PER3, produced different peroxisomal mutant phenotypes. Among five per1 mutants, four showed a Pim- phenotype: the cells contained few small peroxisomes while the bulk of the matrix enzymes resided in the cytosol. One of these mutants, per1-124 had an enhanced rate of p...

Journal: :BioTechniques 2011
Marko Lõoke Kersti Kristjuhan Arnold Kristjuhan

We have developed a quick and low-cost genomic DNA extraction protocol from yeast cells for PCR-based applications. This method does not require any enzymes, hazardous chemicals, or extreme temperatures, and is especially powerful for simultaneous analysis of a large number of samples. DNA can be efficiently extracted from different yeast species (Kluyveromyces lactis, Hansenula polymorpha, Sch...

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