Alleviation of dormancy in walnut kernels by moist chilling is independent from storage protein mobilization

We studied the effects of moist chilling and warming on storage protein mobilization in walnut (Juglans regia L.) kernels to assess the metabolic inhibition theory, which states that dormant seeds are unable to utilize their own food reserves and that cold conditions allow germination by activating...

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Bibliographic Details
Published in:Tree physiology 2007-04, Vol.27 (4), p.519-525
Main Authors: Einali, A.R, Sadeghipour, H.R
Format: Article
Language:English
Subjects:
amino acids
catalase
Catalase - metabolism
Cold Temperature
dormancy breaking
enzyme activity
Germination
glutelins
Juglans
Juglans - embryology
Juglans - metabolism
Juglans regia
Models, Biological
Plant Proteins - metabolism
protein metabolism
Protein Transport
proteinases
seed germination
seed stratification
Seeds - metabolism
walnuts
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Summary:We studied the effects of moist chilling and warming on storage protein mobilization in walnut (Juglans regia L.) kernels to assess the metabolic inhibition theory, which states that dormant seeds are unable to utilize their own food reserves and that cold conditions allow germination by activating hydrolases involved in reserve mobilization. Stratifying kernels at 5 °C for 40 days enhanced their germination. During both cold stratification and warm incubation of kernels, storage protein mobilization occurred in cotyledons rather than axes. Kernel amino acid concentration increased during protein mobilization, with axes of warm-incubated kernels having particularly high amino acid concentrations. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS-PAGE) of the soluble protein fractions from both cold-stratified and warm-incubated cotyledons revealed increased band intensities of putative glutelins (19-22 and 32-35 kDa). A very high molecular weight protease was detected by gelatin SDS-PAGE that was most active at acid to neutral pHs in imbibed, cold stratified and germinated kernels suggesting the protease(s) was synthesized earlier in the mature seeds. Thus, in dormant walnut kernels there is no block to protein mobilization, and imbibition alone is sufficient to initiate proteolysis. Catalase activity was higher in warm-incubated kernels than in cold-stratified kernels, suggesting that seed aging is hastened under warm conditions and that cold stratification in walnut kernels might involve activation of cellular repair mechanisms.
ISSN:0829-318X
1758-4469
DOI:10.1093/treephys/27.4.519