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Items: 1 to 20 of 1312

1.

Molecular evolution of the betagamma lens crystallin superfamily: evidence for a retained ancestral function in gamma N crystallins?

Weadick CJ, Chang BS.

Mol Biol Evol. 2009 May;26(5):1127-42. doi: 10.1093/molbev/msp028. Epub 2009 Feb 20.

PMID:
19233964
2.

Urochordate betagamma-crystallin and the evolutionary origin of the vertebrate eye lens.

Shimeld SM, Purkiss AG, Dirks RP, Bateman OA, Slingsby C, Lubsen NH.

Curr Biol. 2005 Sep 20;15(18):1684-9.

3.

gammaN-crystallin and the evolution of the betagamma-crystallin superfamily in vertebrates.

Wistow G, Wyatt K, David L, Gao C, Bateman O, Bernstein S, Tomarev S, Segovia L, Slingsby C, Vihtelic T.

FEBS J. 2005 May;272(9):2276-91.

4.

Explosive expansion of betagamma-crystallin genes in the ancestral vertebrate.

Kappé G, Purkiss AG, van Genesen ST, Slingsby C, Lubsen NH.

J Mol Evol. 2010 Sep;71(3):219-30. doi: 10.1007/s00239-010-9379-2. Epub 2010 Aug 20. Erratum in: J Mol Evol. 2010 Oct;71(4):317-8.

5.
6.

An intron-less betagamma-crystallin-type gene from the sponge Geodia cydonium.

Di Maro A, Pizzo E, Cubellis MV, D'Alessio G.

Gene. 2002 Oct 16;299(1-2):79-82.

PMID:
12459254
7.

Characterization of gammaS-crystallin isoforms from a catfish: evolutionary comparison of various gamma-, gammaS-, and beta-crystallins.

Chiou SH, Pan FM, Peng HW, Chao YK, Chang WC.

Biochem Biophys Res Commun. 1998 Nov 18;252(2):412-9.

PMID:
9826544
8.

The betagamma-crystallin superfamily contains a universal motif for binding calcium.

Aravind P, Mishra A, Suman SK, Jobby MK, Sankaranarayanan R, Sharma Y.

Biochemistry. 2009 Dec 29;48(51):12180-90. doi: 10.1021/bi9017076.

PMID:
19921810
9.
10.

Preparation and characterization of geodin. A betagamma-crystallin-type protein from a sponge.

Giancola C, Pizzo E, Di Maro A, Cubellis MV, D'Alessio G.

FEBS J. 2005 Feb;272(4):1023-35.

11.
12.

The N-terminal domain of betaB2-crystallin resembles the putative ancestral homodimer.

Clout NJ, Basak A, Wieligmann K, Bateman OA, Jaenicke R, Slingsby C.

J Mol Biol. 2000 Dec 1;304(3):253-7.

PMID:
11090271
13.

Evolutionary remodeling of βγ-crystallins for domain stability at cost of Ca2+ binding.

Suman SK, Mishra A, Ravindra D, Yeramala L, Sharma Y.

J Biol Chem. 2011 Dec 23;286(51):43891-901. doi: 10.1074/jbc.M111.247890. Epub 2011 Sep 26.

14.

Calcium Binding Dramatically Stabilizes an Ancestral Crystallin Fold in Tunicate βγ-Crystallin.

Kozlyuk N, Sengupta S, Bierma JC, Martin RW.

Biochemistry. 2016 Dec 20;55(50):6961-6968. Epub 2016 Dec 8.

PMID:
27992995
15.

Conversion and compensatory evolution of the gamma-crystallin genes and identification of a cataractogenic mutation that reverses the sequence of the human CRYGD gene to an ancestral state.

Plotnikova OV, Kondrashov FA, Vlasov PK, Grigorenko AP, Ginter EK, Rogaev EI.

Am J Hum Genet. 2007 Jul;81(1):32-43. Epub 2007 May 16.

17.
18.

Three-dimensional domain swapping in nitrollin, a single-domain betagamma-crystallin from Nitrosospira multiformis, controls protein conformation and stability but not dimerization.

Aravind P, Suman SK, Mishra A, Sharma Y, Sankaranarayanan R.

J Mol Biol. 2009 Jan 9;385(1):163-77. doi: 10.1016/j.jmb.2008.10.035. Epub 2008 Oct 19.

PMID:
18976659
19.

beta s-Crystallin: structure and evolution of a distinct member of the beta gamma-superfamily.

Quax-Jeuken Y, Driessen H, Leunissen J, Quax W, de Jong W, Bloemendal H.

EMBO J. 1985 Oct;4(10):2597-602.

20.

Solution structure and calcium-binding properties of M-crystallin, a primordial betagamma-crystallin from archaea.

Barnwal RP, Jobby MK, Devi KM, Sharma Y, Chary KV.

J Mol Biol. 2009 Feb 27;386(3):675-89. doi: 10.1016/j.jmb.2008.12.058. Epub 2008 Dec 31.

PMID:
19138688

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