Title : Mutational analysis provides molecular insight into the carbohydrate-binding region of calreticulin: pivotal roles of tyrosine-109 and aspartate-135 in carbohydrate recognition.

Pub. Date : 2004 Jan 13

PMID : 14705935






4 Functional Relationships(s)
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1 Mutational analysis provides molecular insight into the carbohydrate-binding region of calreticulin: pivotal roles of tyrosine-109 and aspartate-135 in carbohydrate recognition. Carbohydrates calreticulin Homo sapiens
2 Mutational analysis provides molecular insight into the carbohydrate-binding region of calreticulin: pivotal roles of tyrosine-109 and aspartate-135 in carbohydrate recognition. Carbohydrates calreticulin Homo sapiens
3 The CRT mutants Y109F and D135L did not show any binding to the sugar substrates interacting with the wild-type protein, demonstrating the great importance of these residues in the carbohydrate-binding site of CRT. Carbohydrates calreticulin Homo sapiens
4 The CRT mutants Y109F and D135L did not show any binding to the sugar substrates interacting with the wild-type protein, demonstrating the great importance of these residues in the carbohydrate-binding site of CRT. Carbohydrates calreticulin Homo sapiens