Yao Benjamin N, Tano Kablan, Konan Hubert K, Bédié Gerard K, Oulé Mathias K, Koffi-Nevry Rose, Arul Joseph
Laboratory of Food Biochemistry and Tropical Products Technology, Department of Food Science and Technology, Abobo-Adjamé University, Abidjan, 02 B.P. 801, Côte d'Ivoire.
Laboratory of Biochemistry and Food Technology, Abobo-Adjamé University, Abidjan, 02 BP 801 Côte d'Ivoire.
J Food Sci Technol. 2014 Nov;51(11):3309-16. doi: 10.1007/s13197-012-0858-x. Epub 2012 Sep 23.
Fruit ripening is associated with many hydrolase activities involved in the softening of the fruit during the maturation. This study investigates the relationship between the loss of firmness along with the changes of sugar content and the enzymatic activities in Carica papaya L.var solo 8 during post-harvest storage. Three maturation stages (green immature: the fruit is entirely green, green mature: the fruit shows 1/32 yellow skin and fully mature: the fruit shows 1/8 yellow skin) have been selected and stored at 15, 22 and 28 °C. The reduction of fruit firmness, total sugar contents, refractive index (% Brix) and enzymatic activities were measured. Low enzymatic activities (0.035 μmol/min/mg) were recorded in fruit harvested at the green immature stage with no significant (p ≥ 0.05) effect on the softening while fruit harvested at the green mature and fully mature stages showed enzymatic activities 7 times as high as those of the green immature stage. These high enzymatic activities were responsible for the loss of firmness of the fruit. Accordingly, papayas at the green mature and fully mature stages displayed higher maxima of sugar content (4.8 g/100 g at 28 °C at day 12, and 10.2 g/100 g at 22 °C at day 8, respectively) at higher temperatures. Meanwhile in green immature papayas, the maximum was only 4.3 g/100 g at 22 °C and day 12 of storage. The results show that the loss of firmness of the papaya was highly related to the hydrolytic enzyme activities and the sweet taste to the presence of simple sugars such as galactose liberated from the polysaccharide complexes.
果实成熟与许多水解酶活性有关,这些酶活性参与果实成熟过程中的软化。本研究调查了番木瓜(Carica papaya L.var solo 8)采后贮藏期间硬度损失、糖含量变化与酶活性之间的关系。选取了三个成熟阶段(绿色未成熟:果实完全为绿色;绿色成熟:果实表皮有1/32变黄;完全成熟:果实表皮有1/8变黄),并分别在15、22和28℃下贮藏。测定了果实硬度、总糖含量、折射率(°Bx)和酶活性的降低情况。绿色未成熟阶段采收的果实酶活性较低(0.035 μmol/min/mg),对软化无显著影响(p≥0.05),而绿色成熟和完全成熟阶段采收的果实酶活性是绿色未成熟阶段的7倍。这些高酶活性导致了果实硬度的损失。因此,绿色成熟和完全成熟阶段的番木瓜在较高温度下糖含量达到更高的最大值(分别在28℃第12天为4.8 g/100 g,在22℃第8天为10.2 g/100 g)。同时,绿色未成熟的番木瓜在22℃贮藏第12天糖含量最大值仅为4.3 g/100 g。结果表明,番木瓜硬度的损失与水解酶活性高度相关,而甜味与从多糖复合物中释放出的半乳糖等单糖的存在有关。