Georgios Tsiavaliaris

Molecular engineering of a backwards−moving myosin motor (2004)

Tsiavaliaris,Georgios, Fujita−Becker,Setsuko, Manstein,Dietmar J.

All members of the diverse myosin superfamily have a highly conserved globular motor domain that contains the actin− and nucleotide−binding sites and produces force and movement1, 2. The...

Molecular engineering of a backwards−moving myosin motor (2004)

Tsiavaliaris,Georgios, Fujita−Becker,Setsuko, Manstein,Dietmar J.

All members of the diverse myosin superfamily have a highly conserved globular motor domain that contains the actin− and nucleotide−binding sites and produces force and movement1, 2. The...

Molecular engineering of a backwards−moving myosin motor (2004)

Tsiavaliaris, Georgios, Fujita−Becker, Setsuko, Manstein, Dietmar J.

All members of the diverse myosin superfamily have a highly conserved globular motor domain that contains the actin− and nucleotide−binding sites and produces force and movement1, 2. The...

Molecular engineering of a backwards−moving myosin motor (2004)

Tsiavaliaris, Georgios, Fujita−Becker, Setsuko, Manstein, Dietmar J.

All members of the diverse myosin superfamily have a highly conserved globular motor domain that contains the actin− and nucleotide−binding sites and produces force and movement1, 2. The...

Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium (2002)

Tsiavaliaris,Georgios, Fujita-Becker,Setsuko, Batra,Renu, Levitsky,Dmitrii I., Kull,F. Jon, Geeves,Michael A., ...

Dominant-negative inhibition is a powerful genetic tool for the characterization of gene function in vivo, based on the specific impairment of a gene product by the coexpression of a mutant version...

Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium (2002)

Tsiavaliaris, Georgios, Fujita-Becker, Setsuko, Batra, Renu, Levitsky, Dmitrii I., Kull, F. Jon, Geeves, Michael A., ...

Dominant-negative inhibition is a powerful genetic tool for the characterization of gene function in vivo, based on the specific impairment of a gene product by the coexpression of a mutant version...

Functional characterization of engineered myosin motors and myosin II relay loop mutants by combining solution kinetics, in vitro motility assays, and single molecule techniques / (2002)

Tsiavaliaris, Georgios.

Heidelberg, Univ., Diss., 2002.

Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium

Tsiavaliaris, Georgios, Fujita-Becker, Setsuko, Batra, Renu, Levitsky, Dmitrii I., Kull, F. Jon, Geeves, Michael A., ...

Dominant-negative inhibition is a powerful genetic tool for the characterization of gene function in vivo, based on the specific impairment of a gene product by the coexpression of a mutant version...

Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium

Tsiavaliaris, Georgios, Fujita-Becker, Setsuko, Batra, Renu, Levitsky, Dmitrii I., Kull, F. Jon, Geeves, Michael A., ...

Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium

Tsiavaliaris, Georgios, Fujita-Becker, Setsuko, Batra, Renu, Levitsky, Dmitrii I., Kull, F. Jon, Geeves, Michael A., ...

Dominant-negative inhibition is a powerful genetic tool for the characterization of gene function in vivo, based on the specific impairment of a gene product by the coexpression of a mutant version...

Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium

Tsiavaliaris, Georgios, Fujita-Becker, Setsuko, Batra, Renu, Levitsky, Dmitrii I., Kull, F. Jon, Geeves, Michael A., ...