Axes, hypocotyls and radicles excised from dry cotton seeds (Gossypium hirsutum L. cv. M-8, a double haploid) were imbibed for 24 h and compared with axial segments (excised sections of embryos below the cotyledons) of imbibed, intact seeds. Radicles of excised axes had a 7.4-fold increase in length compared with only 5.2- and 5.7-fold increases, respectively, in radicles of intact seeds and in those isolated when dry. Change in hypocotyl length was not as extensive. EM data for hypocotyl and radicle cortical cells from dry and imbibed seeds revealed a major reduction in matrix protein in protein storage vacuoles along with significant organelle development at 24 h from the start of imbibition. This occurred in parallel with a reduction in salt-extracted proteins and an increase in 2% SDS-extractable proteins. SDS-PAGE of protein from low (0.2 M NaCI) and high (1.0 M NaCI) salt extracts showed a reduction in amount of the major storage proteins (53 and 48 kDa), these bands being almost totally absent in gels of protein extracts from imbibed radicles and significantly reduced in hypocotyls, within 24 h from the start of imbibition. These results indicate that initial elongation of hypocotyls and radicles in intact seeds or of excised axes, after 24 h imbibition, involves breakdown of storage proteins in these axial parts to supply nutrients for growth, with very limited contribution from the cotyledons.

Excised axes from cotton (Gossypium hirsutum L. cv. M-8, a double haploid) were imbibed in vitro for 3,6,9,12,18 and 24 h. Data for length, fresh and dry weight and percentage water showed that excised axes undergo a triphasic pattern of growth: an initial burst, a short lag phase and then protracted rapid growth. Analysis of protein content with SDS-PAGE, and of activities of amino-, carboxy- and endopeptidases provided data indicating a direct correlation between major axis elongation growth between 12 and 24 h and enzymatic breakdown of storage proteins (especially those of 48 kDa) by carboxy- and endopeptidase. Data for axes imbibed at 30°C and 0–5°C for 12, 18 and 24 h indicated that a reduction in length and percentage moisture in the cold occurred in parallel with reductions in carboxy- and endopeptidase activities but not in ami-nopeptidase activity. The tentative conclusion is that carboxy- and endopeptidase are probably synthesized de novo in the axis during imbibition and are important in initial breakdown of storage proteins for axial elongation growth.