REFERENCES
- AebersoldR, MannM. 2003. Mass spectrometry-based proteomics. Nature422: 198–207.
- AhsanN, LeeDG, LeeSH, KangKY, LeeJJ, KimPJ, et al. 2007. Excess copper induced physiological and proteomic changes in germinating rice seeds. Chemosphere67: 1182–1193.
- AndreiniC, BanciL, BertiniI, RosatoA. 2006. Zinc through the three domains of life. J Proteome Res5: 3173–3178.
- AndreiniC, BanciL, BertiniI, RosatoA. 2008. Occurrence of copper proteins through the three domains of life: A bioinformatic approach. J Proteome Res7: 209–216.
- BarnettJP, ScanlanDJ, BlindauerCA. 2012. Protein fractionation and detection for metalloproteomics: Challenges and approaches. Anal Bioanal Chem402: 3311–3322.
- BertinatoJ, L'AbbéMR. 2003. Copper modulates the degradation of copper chaperone for Cu, Zn superoxide dismutase by the 26 S proteosome. J Biol Chem278: 35071–35078.
- ByraA, DworniczakK, SzumiłoT. 1991. Immobilized metal ion affinity chromatography in enzyme fractionation. Acta Biochim Pol38: 101–105.
- da SilvaMA, SussuliniA, ArrudaMA. 2010. Metalloproteomics as an interdisciplinary area involving proteins and metals. Expert Rev Proteomics7: 387–400.
- DedieuA, BérenguerF, BassetC, PratO, QuéméneurE, PibleO, et al. 2009. Identification of uranyl binding proteins from human kidney-2 cell extracts by immobilized uranyl affinity chromatography and mass spectrometry. J Chromatogr A1216: 5365–5376.
- DegtyarenkoK. 2000. Bioinorganic motifs: Towards functional classification of metalloproteins. Bioinformatics16: 851–864.
- DraperJ, KarplusK, OttemannKM. 2011. Identification of a chemoreceptor zinc-binding domain common to cytoplasmic bacterial chemoreceptors. J Bacteriol193: 4338–4345.
- FinneyLA, O'HalloranTV. 2003. Transition metal speciation in the cell: Insights from the chemistry of metal ion receptors. Science300: 931–936.
- GanePJ, DunwellJM, WarwickerJ. 1998. Modeling based on the structure of vicilins predicts a histidine cluster in the active site of oxalate oxidase. J Mol Evol46: 488–493.
- Garcia-PinoA, ButsL, WynsL, LorisR. 2006. Interplay between metal binding and cis/trans isomerization in legume lectins: Structural and thermodynamic study of P. angolensis lectin. J Mol Biol361: 153–167.
- Godovac-ZimmermanJ, BrownLR. 2001. Perspectives for mass spectrometry and functional proteomics. Mass Spectrom Rev20: 1–57.
- HristovaVA, BeasleySA, RylettRJ, ShawGS. 2009. Identification of a novel Zn2+-binding domain in the autosomal recessive juvenile Parkinson-related E3 ligase parkin. J Biol Chem284: 14978–14986.
- KungCC, HuangWN, HuangYC, YehKC. 2006. Proteomic survey of copper-binding proteins in Arabidopsis roots by immobilized metal affinity chromatography and mass spectrometry. Proteomics6: 2746–2758.
- LaemmliUK. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature227: 680–685.
- MaretW. 2010. Metalloproteomics, metalloproteomes, and the annotation of metalloproteins. Metallomics2: 117–125.
- MounajiK, VlassiM, ErraissNE, WegnezM, SerranoA, SoukriA. 2003. In vitro effect of metal ions on the activity of two amphibian glyceraldehyde-3-phosphate dehydrogenases: Potential metal binding sites. Comp Biochem Physiol B Biochem Mol Biol135: 241–254.
- NagajyotiPC, LeeKD, SreekanthTVM. 2010. Heavy metals, occurrence and toxicity for plants: A review. Environ Chem Lett8: 199–216.
- NaganoN, OrengoCA, ThorntonJM. 2002. One fold with many functions: The evolutionary relationships between TIM barrel families based on their sequences, structures and functions. J Mol Biol321: 741–765.
- NosworthyN, CaldwellRA. 1987. The zinc (II) binding sites of soya bean glycinin. J Sci Food Agric41: 55–63.
- OrtegaJL, RocheD, Sengupta-GopalanC. 1999. Oxidative turnover of soybean root glutamine synthetase. In vitro and in vivo studies. Plant Physiol119: 1483–1496.
- PasseriniA, AndreiniC, MenchettiS, RosatoA, FrasconiP. 2007. Predicting zinc binding at the proteome level. BMC Bioinformatics8: 39.
- RaeTD, SchmidtPJ, PufahlRA, CulottaVC, O'HalloranTV. 1999. Undetectable intracellular free copper: The requirement of a copper chaperone for superoxide dismutase. Science284: 805–808.
- SchraderJM, UhlenbeckOC. 2011. Is the sequence-specific binding of aminoacyl-tRNAs by EF-Tu universal among bacteria?Nucl Acids Res39: 1–13.
- SharmaS, AgarwalGP. 2001. Interactions of proteins with immobilized metal ions: A comparative analysis using various isotherm models. Anal Biochem288: 126–140.
- SheYM, NarindrasorasakS, YangS, SpitaleN, RobertsEA, SarkarB. 2003. Identification of metal-binding proteins in human hepatoma lines by immobilized metal affinity chromatography and mass spectrometry. Mol Cell Proteomics2: 1306–1318.
- ShiW, ChanceMR. 2011. Metalloproteomics: Forward and reverse approaches in metalloprotein structural and functional characterization. Curr Opin Chem Biol15: 144–148.
- SmithAP, DeRidderBP, GuoWJ, SeeleyEH, RegnierFE, GoldsbroughPB. 2004a. Proteomic analysis of Arabidopsis glutathione S-transferases from benoxacor- and copper-treated seedlings. J Biol Chem279: 26098–26104.
- SmithSD, SheYM, RobertsEA, SarkarB. 2004b. Using immobilized metal affinity chromatography, two-dimensional electrophoresis and mass spectrometry to identify hepatocellular proteins with copper-binding ability. J Proteome Res3: 834–840.
- SunX, XiaoCL, GeR, YinX, LiH, LiN, et al. 2011. Putative copper- and zinc-binding motifs in Streptococcus pneumoniae identified by immobilized metal affinity chromatography and mass spectrometry. Proteomics11: 3288–3298.
- TaddeiS, BernardiR, SalviniM, PugliesiC, DuranteM. 2007. Effect of copper on callus growth and gene expression of in vitro-cultured pith explants of Nicotiana glauca. Plant Biosyst141: 194–203.
- WahDA, RomeroA, Gallego del SolF, CavadaBS, RamosMV, GrangeiroTB, et al. 2001. Crystal structure of native and Cd/Cd-substituted Dioclea guianensis seed lectin. A novel manganese-binding site and structural basis of dimer-tetramer association. J Mol Biol310: 885–894.
- WangY, HuH, ZhuL, LiX. 2012. Response to nickel in the proteome of the metal accumulator plant Brassica juncea. J Plant Interact7: 230–237.
- ZhengHG, YangXQ, AhmadI, MinW, ZhuJH, YuanDB. 2009. Soybean β-conglycinin constituent subunits: Isolation, solubility and amino acid composition. Food Res Int42: 998–1003.