Ewa Górnicka-Michalska scite author profile

Ewa Górnicka-Michalska

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5Publications

127Citation Statements Received

89Citation Statements Given

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Affiliations

Jan Kochanowski University, Staropolska Szkoła Wyższa w Kielcach, Kielce University of Technology

Publications

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Sequence variants of chicken linker histone H1.a

Górnicka-Michalska

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et al. 2006

The FEBS Journal

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Two allelic isoforms (H1.a1 and H1.a2) of histone H1.a were identified within two conservative flocks (R11 and R55) of Rhode Island Red chickens. These proteins form three phenotypes: a1, a2 and a1a2. Birds with phenotype a1 were most common (frequency 0.825-0.980) while the a1a2 chickens appeared relatively rarely (0.017-0.175). The third phenotype a2, not detected in the tested populations, has only been revealed in progeny of the purpose-mated a1a2 birds. The polymorphism of histone H1.a was observed in all examined chicken tissues, so that the H1 preparations isolated from the lung, spleen, kidney and testis from the same individual exhibited identical phenotypes (a1, a2, or a1a2). This finding, together with inheritance data, supports the genetic nature of the H1.a polymorphism. As indicated by cleavages with alpha-chymotrypsin and protease V8, the H1.a1 and H1.a2 are two highly related proteins which differ within N-terminal part of their C-terminal tails. Only a single nonconservative amino acid substitution between both H1.a allelic isoforms was detected by Edman degradation: glutamic acid present at position 117 in histone H1.a1 was replaced by lysine in histone H1.a2. Furthermore, using microsequencing techniques we have found a sequence homology between the N- and C-terminal parts of an unknown minor protein H1.y, present in the phenotype a2, and similar regions of histone H1.b.

Natural allelic variation of duck erythrocyte histone H1b

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Górnicka-Michalska

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et al. 2000

The International Journal of Biochemistry & Cell Biology

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Genetic polymorphism of histone H1.z in duck erythrocytes

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Górnicka-Michalska

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1993

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Three different phenotypes of erythrocyte histone H1.z were detected in several lines of duck by using two-dimensional PAGE. Electrophoresis and inheritance data have shown that two co-dominant alleles, z1 and z2, encode two proteins which differ slightly in their apparent molecular masses. Allele z1 was very abundant and was found at a frequency at least 0.94, while allele z2 was very rare and was present at a frequency of less than 0.06. Limited chemical and enzymic cleavages appeared to indicate that the allelic forms of histone H1.z differed in the C-terminal regions of their molecules.

Two polymorphic linker histone loci in Guinea fowl erythrocytes

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Górnicka-Michalska

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2010

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Identification of histone H1.z components in a Muscovy duck (Cairina moschata L.) population

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Górnicka-Michalska

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2004

Comparative Biochemistry and Physiology Part B: Biochemistry an

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