J. Bollmann scite author profile

J. Bollmann

5Publications

83Citation Statements Received

0Citation Statements Given

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113

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Affiliations

TU Bergakademie Freiberg, Humboldt-Universität zu Berlin, TU Dresden

Publications

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Allelic Interactions at the nivea Locus of Antirrhinum

Bollmann¹,

Carpenter²,

Coen³

1991

The Plant Cell

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Most null alleles at the nivea (niv) locus are recessive to Niv+ and, when homozygous, give white flowers rather than the red of the wild type. In contrast, the niv-571 allele is semidominant; although it gives white flowers when homozygous, very pale flowers result when this allele is heterozygous with NIV+. We showed that in heterozygotes, niv-571 acts in trans to inhibit expression of its Niv+ homology 25-fold to 50-fold. The inhibition is reversible after meiosis and partially reversible somatically. The niv-571 allele carries a transposable element Tam3 insertion and three truncated copies of the niv gene, one copy being in inverse orientation. Analysis of two further niv alleles, niv-572 and niv-527, showed that excision of Tam3 from niv-571 does not affect the ability of the allele to repress Niv+ and that one truncated niv copy alone is insufficient to confer semidominance. The detailed structures of various semidominant niv alleles suggest that their effects in trans are not readily explained by production of antisense RNA but are more easily reconciled with a direct recognition/interaction between homologous genes, reminiscent of cosuppression and transvection phenomena described in other systems.

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Characterization of electron trap states due to InAs quantum dots in GaAs

Walther¹,

Bollmann²,

Kissel³

et al. 2000

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InAs quantum dots grown in a GaAs matrix are investigated using capacitive transient spectroscopy and transmission electron microscopy (TEM). Two deep levels are detected which are energetically too deep to be the intrinsic electron levels of the quantum dots. Both TEM as well as the detailed non-exponential behavior of the electron capture indicate that the traps do not result from dislocations in the GaAs matrix. We propose that the measured trap levels are due to point defects in or near the quantum dots.

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Evolution of Deep Level Centers in NPN Transistors Following 35 MeV Si Ion Irradiations With High Fluence

Liu

Yang

et al. 2014

IEEE Trans. Nucl. Sci.

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Effects of BN on the microstructural evolution and mechanical properties of BAS-BN composites

Cai

Yang

et al. 2019

Ceramics International

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Non-exponential capture of electrons in GaAs with embedded InAs quantum dots

Walther

Bollmann

Kissel

et al. 1999

Physica B: Condensed Matter

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J. Bollmann

Allelic Interactions at the nivea Locus of Antirrhinum

Characterization of electron trap states due to InAs quantum dots in GaAs

Evolution of Deep Level Centers in NPN Transistors Following 35 MeV Si Ion Irradiations With High Fluence

Effects of BN on the microstructural evolution and mechanical properties of BAS-BN composites

Non-exponential capture of electrons in GaAs with embedded InAs quantum dots

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