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Publications by M M Witte

The C6 Zinc Finger and Adjacent Amino Acids Determine DNA-binding Specificity and Affinity in the Yeast Activator Proteins LAC9 and PPR1.

Molecular and Cellular Biology

Cell Biology

Molecular Biology

1990

English

Related publications

Genome Engineering Using DNA-binding Proteins: Zinc Finger Nucleases (ZFNs) and Transcription Activator-Like Effector Nucleases (TALENs)

English

DNA-binding Specificity of NGFI-A and Related Zinc Finger Transcription Factors.

Molecular and Cellular Biology

Cell Biology

Molecular Biology

1995

English

The DNA-binding Domain of the Yeast Spt10p Activator Includes a Zinc Finger That Is Homologous to Foamy Virus Integrase

Journal of Biological Chemistry

English

Amino Acids at Positions 3 and 4 Determine the Membrane Specificity ofPseudomonas aeruginosaLipoproteins

Journal of Biological Chemistry

English

GATA Zinc Finger Interactions Modulate DNA Binding and Transactivation

Journal of Biological Chemistry

English

The Ikaros Gene Encodes a Family of Functionally Diverse Zinc Finger DNA-binding Proteins.

Molecular and Cellular Biology

Cell Biology

Molecular Biology

1994

English

Influence of Zinc-Binding on Folding and Dynamics of Zinc Finger Proteins: In Silico

Biophysical Journal

Biophysics

2015

English

Met31p and Met32p, Two Related Zinc Finger Proteins, Are Involved in Transcriptional Regulation of Yeast Sulfur Amino Acid Metabolism.

Molecular and Cellular Biology

Cell Biology

Molecular Biology

1997

English

Functional Homology Between the Yeast Regulatory Proteins GAL4 and LAC9: LAC9-mediated Transcriptional Activation in Kluyveromyces Lactis Involves Protein Binding to a Regulatory Sequence Homologous to the GAL4 Protein-Binding Site.

Molecular and Cellular Biology

Cell Biology

Molecular Biology

1987

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by M M Witte

The C6 Zinc Finger and Adjacent Amino Acids Determine DNA-binding Specificity and Affinity in the Yeast Activator Proteins LAC9 and PPR1.

Related publications

Genome Engineering Using DNA-binding Proteins: Zinc Finger Nucleases (ZFNs) and Transcription Activator-Like Effector Nucleases (TALENs)

DNA-binding Specificity of NGFI-A and Related Zinc Finger Transcription Factors.

The DNA-binding Domain of the Yeast Spt10p Activator Includes a Zinc Finger That Is Homologous to Foamy Virus Integrase

Amino Acids at Positions 3 and 4 Determine the Membrane Specificity ofPseudomonas aeruginosaLipoproteins

GATA Zinc Finger Interactions Modulate DNA Binding and Transactivation

The Ikaros Gene Encodes a Family of Functionally Diverse Zinc Finger DNA-binding Proteins.

Influence of Zinc-Binding on Folding and Dynamics of Zinc Finger Proteins: In Silico

Met31p and Met32p, Two Related Zinc Finger Proteins, Are Involved in Transcriptional Regulation of Yeast Sulfur Amino Acid Metabolism.

Functional Homology Between the Yeast Regulatory Proteins GAL4 and LAC9: LAC9-mediated Transcriptional Activation in Kluyveromyces Lactis Involves Protein Binding to a Regulatory Sequence Homologous to the GAL4 Protein-Binding Site.