Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand

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Standard

Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand. / Cox, J A; Durussel, I; Scott, D J; Berchtold, M W.

I: European Journal of Biochemistry, Bind 264, Nr. 3, 1999, s. 790-9.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Cox, JA, Durussel, I, Scott, DJ & Berchtold, MW 1999, 'Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand', European Journal of Biochemistry, bind 264, nr. 3, s. 790-9.

APA

Cox, J. A., Durussel, I., Scott, D. J., & Berchtold, M. W. (1999). Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand. European Journal of Biochemistry, 264(3), 790-9.

Vancouver

Cox JA, Durussel I, Scott DJ, Berchtold MW. Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand. European Journal of Biochemistry. 1999;264(3):790-9.

Author

Cox, J A ; Durussel, I ; Scott, D J ; Berchtold, M W. / Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand. I: European Journal of Biochemistry. 1999 ; Bind 264, Nr. 3. s. 790-9.

Bibtex

@article{64c781200caf11de8478000ea68e967b,
title = "Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand",
abstract = "Parvalbumin (PV) and the homologous protein oncomodulin (OM) contain three EF-hand motifs, but the first site (AB) cannot bind Ca2+. Here we aimed to recreate the putative ancestral proteins [D19-28E]PV and [D19-28E]OM by replacing the 10-residue-long nonfunctional loop in the AB site by a 12-residue canonical loop. To create an optical conformational probe we also expressed the homologs with a F102W replacement. Unexpectedly, in none of the proteins did the mutation reactivate the AB site. The AB-remodeled parvalbumins bind two Ca2+ ions with strong positive cooperativity (nH = 2) and moderate affinity ([Ca2+]0.5 = 2 microM), compared with [Ca2+]0.5 = 37 nM and nH = 1 for the wild-type protein. Increasing Mg2+ concentrations changed nH from 2 to 0.65, but without modification of the [Ca2+]0. 5-value. CD revealed that the Ca2+ and Mg2+ forms of the remodeled parvalbumins lost one-third of their alpha helix content compared with the Ca2+ form of wild-type parvalbumin. However, the microenvironment of single Trp residues in the hydrophobic cores, monitored using intrinsic fluorescence and difference optical density, is the same. The metal-free remodeled parvalbumins possess unfolded conformations. The AB-remodeled oncomodulins also bind two Ca2+ with [Ca2+]0.5 = 43 microM and nH = 1.45. Mg2+ does not affect Ca2+ binding. Again the Ca2+ forms display two-thirds of the alpha-helical content in the wild-type, while their core is still strongly hydrophobic as monitored by Trp and Tyr fluorescence. The metal-free oncomodulins are partially unfolded and seem not to possess a hydrophobic core. Our data indicate that AB-remodeled parvalbumin has the potential to regulate cell functions, whereas it is unlikely that [D19-28E]OM can play a regulatory role in vivo. The predicted evolution of the AB site from a canonical to an abortive EF-hand may have been dictated by the need for stronger interaction with Mg2+ and Ca2+, and a high conformational stability of the metal-free forms.",
author = "Cox, {J A} and I Durussel and Scott, {D J} and Berchtold, {M W}",
note = "Keywords: Amino Acid Sequence; Animals; Binding Sites; Calcium; Calcium-Binding Proteins; Circular Dichroism; Magnesium; Molecular Sequence Data; Mutation; Parvalbumins; Protein Conformation; Protein Structure, Secondary; Rats; Recombinant Proteins; Spectrometry, Fluorescence; Spectrophotometry, Ultraviolet",
year = "1999",
language = "English",
volume = "264",
pages = "790--9",
journal = "FEBS Journal",
issn = "1742-464X",
publisher = "Springer Verlag",
number = "3",

}

RIS

TY - JOUR

T1 - Remodeling of the AB site of rat parvalbumin and oncomodulin into a canonical EF-hand

AU - Cox, J A

AU - Durussel, I

AU - Scott, D J

AU - Berchtold, M W

N1 - Keywords: Amino Acid Sequence; Animals; Binding Sites; Calcium; Calcium-Binding Proteins; Circular Dichroism; Magnesium; Molecular Sequence Data; Mutation; Parvalbumins; Protein Conformation; Protein Structure, Secondary; Rats; Recombinant Proteins; Spectrometry, Fluorescence; Spectrophotometry, Ultraviolet

PY - 1999

Y1 - 1999

N2 - Parvalbumin (PV) and the homologous protein oncomodulin (OM) contain three EF-hand motifs, but the first site (AB) cannot bind Ca2+. Here we aimed to recreate the putative ancestral proteins [D19-28E]PV and [D19-28E]OM by replacing the 10-residue-long nonfunctional loop in the AB site by a 12-residue canonical loop. To create an optical conformational probe we also expressed the homologs with a F102W replacement. Unexpectedly, in none of the proteins did the mutation reactivate the AB site. The AB-remodeled parvalbumins bind two Ca2+ ions with strong positive cooperativity (nH = 2) and moderate affinity ([Ca2+]0.5 = 2 microM), compared with [Ca2+]0.5 = 37 nM and nH = 1 for the wild-type protein. Increasing Mg2+ concentrations changed nH from 2 to 0.65, but without modification of the [Ca2+]0. 5-value. CD revealed that the Ca2+ and Mg2+ forms of the remodeled parvalbumins lost one-third of their alpha helix content compared with the Ca2+ form of wild-type parvalbumin. However, the microenvironment of single Trp residues in the hydrophobic cores, monitored using intrinsic fluorescence and difference optical density, is the same. The metal-free remodeled parvalbumins possess unfolded conformations. The AB-remodeled oncomodulins also bind two Ca2+ with [Ca2+]0.5 = 43 microM and nH = 1.45. Mg2+ does not affect Ca2+ binding. Again the Ca2+ forms display two-thirds of the alpha-helical content in the wild-type, while their core is still strongly hydrophobic as monitored by Trp and Tyr fluorescence. The metal-free oncomodulins are partially unfolded and seem not to possess a hydrophobic core. Our data indicate that AB-remodeled parvalbumin has the potential to regulate cell functions, whereas it is unlikely that [D19-28E]OM can play a regulatory role in vivo. The predicted evolution of the AB site from a canonical to an abortive EF-hand may have been dictated by the need for stronger interaction with Mg2+ and Ca2+, and a high conformational stability of the metal-free forms.

AB - Parvalbumin (PV) and the homologous protein oncomodulin (OM) contain three EF-hand motifs, but the first site (AB) cannot bind Ca2+. Here we aimed to recreate the putative ancestral proteins [D19-28E]PV and [D19-28E]OM by replacing the 10-residue-long nonfunctional loop in the AB site by a 12-residue canonical loop. To create an optical conformational probe we also expressed the homologs with a F102W replacement. Unexpectedly, in none of the proteins did the mutation reactivate the AB site. The AB-remodeled parvalbumins bind two Ca2+ ions with strong positive cooperativity (nH = 2) and moderate affinity ([Ca2+]0.5 = 2 microM), compared with [Ca2+]0.5 = 37 nM and nH = 1 for the wild-type protein. Increasing Mg2+ concentrations changed nH from 2 to 0.65, but without modification of the [Ca2+]0. 5-value. CD revealed that the Ca2+ and Mg2+ forms of the remodeled parvalbumins lost one-third of their alpha helix content compared with the Ca2+ form of wild-type parvalbumin. However, the microenvironment of single Trp residues in the hydrophobic cores, monitored using intrinsic fluorescence and difference optical density, is the same. The metal-free remodeled parvalbumins possess unfolded conformations. The AB-remodeled oncomodulins also bind two Ca2+ with [Ca2+]0.5 = 43 microM and nH = 1.45. Mg2+ does not affect Ca2+ binding. Again the Ca2+ forms display two-thirds of the alpha-helical content in the wild-type, while their core is still strongly hydrophobic as monitored by Trp and Tyr fluorescence. The metal-free oncomodulins are partially unfolded and seem not to possess a hydrophobic core. Our data indicate that AB-remodeled parvalbumin has the potential to regulate cell functions, whereas it is unlikely that [D19-28E]OM can play a regulatory role in vivo. The predicted evolution of the AB site from a canonical to an abortive EF-hand may have been dictated by the need for stronger interaction with Mg2+ and Ca2+, and a high conformational stability of the metal-free forms.

M3 - Journal article

C2 - 10491125

VL - 264

SP - 790

EP - 799

JO - FEBS Journal

JF - FEBS Journal

SN - 1742-464X

IS - 3

ER -

ID: 11175343