The absence of molybdenum cofactor sulfuration is the primary cause of the flacca phenotype in tomato plants

Plant Journal

Volumn 31, Issue 3, 2002, Pages 305-317

  Sagi, Moshe ^a   Scazzocchio, Claudio ^b,c   Fluhr, Robert ^d  

^a BEN GURION UNIVERSITY OF THE NEGEV   (Israel)

^b UNIVERSITÉ PARIS SACLAY   (France)

^c INSTITUT UNIVERSITAIRE DE FRANCE   (France)

^d WEIZMANN INSTITUTE OF SCIENCE   (Israel)

Author keywords

ABA; Aldehyde oxidase; Dehydration; Molybdenum cofactor sulfurase; Phylogenetic analysis; Xanthine dehydrogenase

Indexed keywords

COFACTORS; MOLECULAR ANALYSIS; MUTATIONS;

BIOASSAY; ENZYMES; GENES; HORMONES; MOLYBDENUM; MUTAGENESIS; SULFUR;

PLANTS (BOTANY);

ANIMALIA; ARABIDOPSIS; ASPERGILLUS; EMBRYOPHYTA; EMERICELLA NIDULANS; FUNGI; LYCOPERSICON ESCULENTUM; MAMMALIA;

ABA3 PROTEIN, ARABIDOPSIS; ABSCISIC ACID; ARABIDOPSIS PROTEIN; METALLOPROTEIN; MOLYBDENUM COFACTOR; PTERIDINE DERIVATIVE; SULFUR; SULFURTRANSFERASE;

AMINO ACID SEQUENCE; ARTICLE; CHEMISTRY; COENZYME; ENZYMOLOGY; GENE; GENETIC COMPLEMENTATION; GENETICS; METABOLISM; MOLECULAR GENETICS; MUTATION; NUCLEOTIDE SEQUENCE; PHENOTYPE; PHYLOGENY; SEQUENCE ALIGNMENT; TOMATO;

ABSCISIC ACID; AMINO ACID SEQUENCE; ARABIDOPSIS PROTEINS; BASE SEQUENCE; COENZYMES; GENES, PLANT; GENETIC COMPLEMENTATION TEST; LYCOPERSICON ESCULENTUM; METALLOPROTEINS; MOLECULAR SEQUENCE DATA; MUTATION; PHENOTYPE; PHYLOGENY; PTERIDINES; SEQUENCE ALIGNMENT; SULFUR; SULFURTRANSFERASES;

EID: 0036678459     PISSN: 09607412     EISSN: None     Source Type: Journal    
DOI: 10.1046/j.1365-313X.2002.01363.x     Document Type: Article

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