Department of Botany-HITAHR, University of Hawaii at Manoa, Honolulu, Hawaii 96822.
Plant Physiol. 1983 Jun;72(2):382-5. doi: 10.1104/pp.72.2.382.
Pectin methylesterase (PME), polygalacturonase (PG), xylanase, cellulase, and proteinase activity were determined and related to respiration, ethylene evolution, and changes in skin color of papaya (Carica papaya L.) fruit from harvest through to the start of fruit breakdown. PME gradually increased from the start of the climacteric rise reaching a peak 2 days after the respiratory peak. PG and xylanase were not detectable in the preclimacteric stage but increased during the climacteric: during the post climacteric stage, the PG declined to a level one-quarter of peak activity with xylanase activity returning to zero. Cellulase activity gradually increased 3-fold after harvest to peak at the same time as PME, 2 days after the edible stage. Proteinase declined throughout the climacteric and postclimacteric phases. A close relationship exists between PG and xylanase and the rise in respiration, ethylene evolution, and softening. Cultivar differences in postclimacteric levels of enzymic activity were not detected.An inhibitor of cellulase activity was detected in preclimacteric fruit. The inhibitor was not benzyl isothiocyanate (BITC). BITC did inhibit PG activity, though no inhibitor of PG activity was detected in preclimacteric homogenates when BITC was highest. The results indicate that inhibitors did not play a direct role in controlling wall softening.
果胶甲酯酶(PME)、多聚半乳糖醛酸酶(PG)、木聚糖酶、纤维素酶和蛋白酶活性与呼吸作用、乙烯释放和木瓜(Carica papaya L.)果实从收获到开始腐烂期间果皮颜色变化有关。PME 在呼吸高峰后两天达到顶峰,从开始进入呼吸高峰时逐渐增加。PG 和木聚糖酶在前呼吸高峰阶段无法检测到,但在呼吸高峰期间增加:在后呼吸高峰阶段,PG 下降到峰值的四分之一,木聚糖酶活性降至零。纤维素酶活性在收获后逐渐增加 3 倍,在与 PME 相同的时间达到峰值,比可食用阶段晚两天。蛋白酶在整个呼吸高峰和后呼吸高峰阶段都下降。PG 和木聚糖酶与呼吸作用、乙烯释放和软化的上升密切相关。在后呼吸高峰阶段,不同品种的酶活性差异不明显。在预呼吸高峰阶段的果实中检测到一种纤维素酶活性抑制剂。这种抑制剂不是苄基异硫氰酸酯(BITC)。尽管 BITC 含量最高时,预呼吸高峰匀浆中未检测到 PG 活性抑制剂,但 BITC 确实抑制了 PG 活性。结果表明,抑制剂并没有直接控制细胞壁软化。