Studies on bovine eye retinal calcineurin

Zuo, Yuan

06 January 2009

Calcineurin (CaN), a member of ser/thr protein phosphatase, was cloned from bovine retina. The peptide sequence of CaN A subunit is consisted of 511 amino acid residues. A 10 amino acid (A-T-V-E-A-I-E-A-D-E-A) deletion before the autoinhibitory domain was observed in bovine retina CaN A compared to bovine brain CaN A. The study on CaN activity and regulation demonstrated that different metal ions have different effects on its phosphatase activity. Ni2+ was found to be the strongest stimulator while Zn2+ was found to inhibit CaN phosphatase activity. Mn2+ was a relatively less effective stimulator compared to Ni2+. Fe2+ was also able to stimulate CaN phosphatase activity; in contrast, a previous study found Fe2+ slightly inhibited bovine brain CaN activity. The residues at 97-201 were found to be essential for bovine retina CaN A phosphatase activity. The residues at 407-456 also had an inhibitory effect on CaN A phosphatase activity in addition to the previously known auto inhibitory domain at 457-480. These observations suggest that bovine retina CaN A might possess some distinct structural characteristics compared to bovine brain CaN A.

molecular cloning

enzymes

retina

Bovine eye

phosphatase

calcineurin

Studies on bovine eye retinal calcineurin

Zuo, Yuan

06 January 2009

Calcineurin (CaN), a member of ser/thr protein phosphatase, was cloned from bovine retina. The peptide sequence of CaN A subunit is consisted of 511 amino acid residues. A 10 amino acid (A-T-V-E-A-I-E-A-D-E-A) deletion before the autoinhibitory domain was observed in bovine retina CaN A compared to bovine brain CaN A. The study on CaN activity and regulation demonstrated that different metal ions have different effects on its phosphatase activity. Ni2+ was found to be the strongest stimulator while Zn2+ was found to inhibit CaN phosphatase activity. Mn2+ was a relatively less effective stimulator compared to Ni2+. Fe2+ was also able to stimulate CaN phosphatase activity; in contrast, a previous study found Fe2+ slightly inhibited bovine brain CaN activity. The residues at 97-201 were found to be essential for bovine retina CaN A phosphatase activity. The residues at 407-456 also had an inhibitory effect on CaN A phosphatase activity in addition to the previously known auto inhibitory domain at 457-480. These observations suggest that bovine retina CaN A might possess some distinct structural characteristics compared to bovine brain CaN A.

molecular cloning

enzymes

retina

Bovine eye

phosphatase

calcineurin

Transparent Tissues and Porous Thin Films: A Brillouin Light Scattering Study

Bailey, Sheldon T.

21 May 2013

No description available.

Nanoscience

Brillouin light scattering

human eye lens

bovine eye globe

low-k dielectric thin films.p