Isolation of a ripening and wound-induced cDNA from Cucumis melo L. encoding a protein with homology to the ethylene-forming enzyme

Isolation of a ripening and wound-induced cDNA from Cucumis melo L. encoding a protein with homology to the ethylene-forming enzyme

A cDNA clone (pMEL1) was isolated from a climacteric melon fruit cDNA library using the tomato ethylene-forming-enzyme (EFE) cDNA, pTOM13, as a probe. Northern analysis of RNA isolated from wounded leaf and fruit tissue and from preclimacteric and climacteric pericarp tissue was used to determine th...

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Bibliographic Details
Published in:European journal of biochemistry Vol. 212; no. 1; pp. 27 - 34
Main Authors: Balague, C, Watson, C.F, Turner, A.J, Rouge, P, Picton, S, Pech, J.C, Grierson, D
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 15-02-1993
Blackwell
Subjects:
Amino Acid Sequence
amino acid sequences
Base Sequence
Biological and medical sciences
Blotting, Northern
Blotting, Southern
Blotting, Western
climacteric fruit
clones
complementary DNA
Cucumis melo
DNA libraries
DNA Probes
enzymes
ethylene production
Ethylenes - biosynthesis
Fructification and ripening
Fruit - genetics
Fruit - metabolism
Fundamental and applied biological sciences. Psychology
genbank/x69935
genetic code
injuries
leaves
Lyases - genetics
melons
Molecular Sequence Data
nucleotide sequences
pericarp
Plant physiology and development
plant proteins
Plant Proteins - chemistry
Plant Proteins - genetics
Plant Proteins - immunology
ripening
Sequence Homology, Amino Acid
shelf life
Vegetative and sexual reproduction, floral biology, fructification
Fruit
Enzyme
Gene product
Injury
Cucurbitaceae
Ethylene
Homology
Primary structure
Biosynthesis
Gene expression
Ripening
Tissue
Complementary DNA
Dicotyledones
Angiospermae
Plant growth substance
Spermatophyta
Cucumis melo
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Summary:A cDNA clone (pMEL1) was isolated from a climacteric melon fruit cDNA library using the tomato ethylene-forming-enzyme (EFE) cDNA, pTOM13, as a probe. Northern analysis of RNA isolated from wounded leaf and fruit tissue and from preclimacteric and climacteric pericarp tissue was used to determine the pattern of pMEL1 RNA expression. pMEL1 hybridized to a 1.3-kb transcript in climacteric fruit and wounded leaf tissue but was undetectable in preclimacteric fruit and unwounded leaves. Maximal expression of pMEL1 RNA occurred in wounded ripe fruit. pMEL1 contained a 1230-bp insert containing a predicted open reading frame of 318 amino acids and molecular mass of 35.3 kDa. The predicted amino acid sequence of pMEL1 was 73 - 81% identical to the deduced amino acid sequences of tomato (pTOM13) EFE and EFE-related genes isolated from tomato and avocado fruit and senescent carnation petals. Genomic Southern analysis indicated that pMEL1 hybridized to a number of genomic fragments consistent with the presence of more than one pMEL1-related gene in melon. On Western analysis of total protein extracts from ripe tomato and melon fruit, using an antibody raised against tomato EFE (pTOM13) expressed in Escherichia coli, a single 35.5-kDa protein was detected. A 35-kDa product translated from in-vitro transcribed pMEL1 and immunoadsorbed by anti-EFE serum was very similar in size to the predicted 35.3-kDa pMEL1 cDNA protein product. These results indicate that pMEL1 may encode an EFE gene involved in ethylene biosynthesis during fruit ripening and may be identical to or share extensive sequence similarity with an EFE expressed in response to tissue wounding.
Bibliography:The nucleotide‐sequence data published here has been submitted to the EMBL sequence data bank and is available under accession number X69935.
Note.
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ISSN:0014-2956
1432-1033
DOI:10.1111/j.1432-1033.1993.tb17628.x