Metal-binding protein and use thereof

What is claimed is: 1 . An isolated metal-binding protein comprising (i) a sequence of SEQ ID NO:41 or (ii) a sequence having at least 80% identity to SEQ ID NO:41, wherein the isolated metal-binding protein is immobilized on a substrate; wherein the isolated metal-binding protein has an apparent K d value for a trivalent rare earth element at least 10,000-fold smaller than its apparent K d value for calcium. 2 . The isolated metal-binding protein of claim 1 , wherein the apparent K d value for a trivalent rare earth element of the isolated metal-binding protein is about 1 pM to about 50 pM at pH 7.2. 3 . The isolated metal-binding protein of claim 1 , wherein when the isolated metal-binding comprises (ii), one or both of the amino acids in positions 21 and 24, positions 45 and 48, positions 70 and 73, and/or positions 94 and 97 are D or E, wherein positions 21, 24, 45, 48, 70, 73, 94, and 97 correspond to the amino acid residue positions of SEQ ID NO:41. 4 . The isolated-metal binding protein of claim 1 , wherein when the isolated metal-binding protein comprises (ii), the amino acid in position 14, position 38, position 63, and/or position 87 is P, wherein positions 14, 38, 63, and 87 correspond to the amino acid residue positions of SEQ ID NO:41. 5 . An isolated metal-binding protein comprising (i) a sequence of SEQ ID NO:41 or (ii) a sequence having at least 80% identity to SEQ ID NO:41, wherein the isolated metal-binding protein is immobilized on a substrate; wherein the isolated metal-binding protein has an apparent K d value for a trivalent rare earth element that is at least 10,000 fold smaller than its apparent K d value for calcium; wherein the isolated metal-binding protein comprising (ii) comprises two or more metal-binding motifs and at least one of the metal-binding motifs comprises at least 3 carboxylate residues, and wherein adjacent metal-binding motifs are separated by 10 −15 amino acid residues. 6 . The isolated metal-binding protein of claim 5 , wherein the apparent K d for a trivalent rare earth element of the isolated metal-binding protein is about 1 pM to about 50 pM at pH 7.2. 7 . The isolated metal-binding protein of claim 5 , wherein when the isolated metal-binding protein comprise (ii), one or both of the amino acids in one or both of the amino acids in positions 21 and 24, positions 45 and 48, positions 70 and 73, and/or positions 94 and 97 are D or E, wherein positions 21, 24, 45, 48, 70, 73, 94, and 97 correspond to the amino acid residue positions of SEQ ID NO:41. 8 . The isolated metal-binding protein of claim 5 , wherein when the isolated metal-binding protein comprise (ii), the amino acid in position 14 of SEQ ID NO:41, position 38 of SEQ ID NO:41, position 63 of SEQ ID NO:41, and/or position 87 of SEQ ID NO:41 is P, wherein positions 14, 38, 63, and 87 correspond to the amino acid residue positions of SEQ ID NO: 41. 9 . The isolated metal-binding protein of claim 5 , wherein (ii) has at least 85% identity to SEQ ID NO:41. 10 . The isolated metal-binding protein of claim 5 , wherein (ii) has at least 90% identity to SEQ ID NO:41. 11 . The isolated metal-binding protein of claim 5 , wherein (ii) has at least 95% identity to SEQ ID NO:41. 12 . The isolated metal-binding protein of claim 5 , wherein the metal-binding motif has the following sequence: (D or N)—X 1 -(D or N)—X 2 -(D or N)—X 3 —X 4 —X 5 —X 6 —X 7 —X 8 -(E or D), wherein X 1 through X 8 are each independently any canonical amino acid. 13 . The isolated metal-binding protein of claim 12 , wherein the metal-binding motif has the following sequence: (SEQ ID NO: 51) DPDKDGTIDLKE; (SEQ ID NO: 52) DPDKDGTLDAKE; (SEQ ID NO: 53) DPDNDGTLDKKE; (SEQ ID NO: 54) NPDKDGTIDARE; (SEQ ID NO: 55) NKDNDDSLEIAE; (SEQ ID NO: 56) DIDKDGRVSVEE; (SEQ ID NO: 57) DKDNDGTLDREE; or (SEQ ID NO: 58) DKNGDGFIDKEE. 14 . A method for separating a rare earth or actinide, the method comprising: contacting a medium containing a trivalent cation with a sample comprising the isolated metal-binding protein of claim 1 to bind the trivalent cation; and separating the metal-binding protein having the trivalent cation bound thereto from the medium, wherein the metal-binding protein has a higher selective affinity for the trivalent over non-trivalent or non-tetravalent cations, wherein the trivalent cation is selected from the group consisting of trivalent rare earth elements, a compound thereof, a salt thereof, an actinide, a compound thereof, a salt thereof, and combinations thereof. 15 . The method of claim 14 , further comprising separating the trivalent cation from the metal-binding protein having the trivalent cation bound thereto. 16 . The method of claim 15 , wherein separating the trivalent cation comprises treating the separated metal-binding protein having the trivalent cation by a dilute acid or a solution comprising a metal chelator. 17 . The method of claim 16 , wherein the metal chelator includes an EDTA, EGTA, EDDS, citrate, or combinations thereof. 18 . The method of claim 14 , wherein the apparent K d value for a trivalent cation is at least 1,000,000-fold smaller than its apparent K d value for calcium.