posted on 2022-07-21, 18:12authored byAhmed O. Warsame, Nicholas Michael, Donal M. O’Sullivan, Paola Tosi
A major objective in faba bean breeding is to improve
its protein
quality by selecting cultivars with enhanced desirable physicochemical
properties. However, the protein composition of the mature seed is
determined by a series of biological processes occurring during seed
growth. Thus, any attempt to explain the final seed composition must
consider the dynamics of the seed proteome during seed development.
Here, we investigated the proteomic profile of developing faba bean
seeds across 12 growth stages from 20 days after pollination (DAP)
to full maturity. We analyzed trypsin-digested total protein extracts
from the seeds at different growth stages by liquid chromatography-tandem
mass spectrometry (LC-MS/MS), identifying 1217 proteins. The functional
clusters of these proteins showed that, in early growth stages, proteins
related to cell growth, division, and metabolism were most abundant
compared to seed storage proteins that began to accumulate from 45
DAP. Moreover, label-free quantification of the relative abundance
of seed proteins, including important globulin proteins, revealed
several distinct temporal accumulation trends among the protein classes.
These results suggest that these proteins are regulated differently
and require further understanding of the impact of the different environmental
stresses occurring at different grain filling stages on the expression
and accumulation of these seed storage proteins.