Chlorophyll Extraction and Storage Studies on Selected Vegetables (Bitter Leaf - Vernonia Amygdalina, Pawpaw Leaf - Carica Papaya and Pumpkin Leaf - Telfairia Occidentalis)

Irede, L. Egwonor, Asishana P. Onivefu
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Abstract

Chlorophyll is the term used for several closely related pigments found in cyanobacteria and the chloroplast of algae and plants. Chlorophyll is the green pigment responsible for the color of leaves. Its presence in leaves is crucial for photosynthesis. Chlorophyll absorbs light most strongly in the blue portion of the electromagnetic spectrum, followed by the red portion. Conversely, it is a poor absorber of green and neargreen portions of the spectrum, hence the green color of chlorophyll containing tissues. This study evaluated the effect of extraction solvent and storage on chlorophyll extracted from selected vegetables (bitter leaf, pawpaw leaf and pumpkin leaf), It also observed the absorbance pattern at 430nm for chlorophyll a and 660nm for pheophytin a (a derivative of chlorophyll) for extracts stored at room temperature and water activity(aw) of 0.33 and 0.75 during a one month storage period. Uv-visible scans were carried out weekly for all extracts during the storage period. Absorbance measurement at 430nm and 660nm showed that initially, after extraction, the absorbance values of extracts followed according to the order of polarity of the solvents used for extraction. The order of polarity was deionized distilled water > ethanol > acetone > petroleum ether > nhexane. Uv-visible scan for extracts stored at room temperature, initially after extraction and after one month storage period showed the dominant presence of chlorophyll a and chlorophyll b. Uv-visible scan for extracts stored at water activity(aw) of 0.33 showed the conversion of chlorophyll b at 467nm,473nm to chlorophyll a at 448nm,671nm after one month storage period and conversion of chlorophyll a to an unknown compound which absorbs at 331nm or 333nm. Uv-visible scan for extracts stored at water activity (aw) of 0.75 showed the conversion of chlorophyll a and chlorophyll b to an unknown compound which absorbs at 331nm or 333nm. The pH measured for extracts stored at water activity (aw) of 0.33 showed increase in acidity after one month of storage. pH measured for extracts stored at water activity (aw) of 0.75 showed pH change to slightly alkaline except for pawpaw leaf extracts which showed increase in acidity. The difference between the initial and final specific gravity shows reduction in the chlorophyll content of extracts after one-month storage period. Chlorophyll Extraction and Storage Studies on Selected Vegetables (Bitter Leaf Vernonia Amygdalina, Pawpaw Leaf Carica Papaya and Pumpkin Leaf Telfairia Occidentalis) International Journal of Advanced Research in Chemical Science Page | 41 Chlorophyll was first isolated by Joseph BienaiméCaventou and Pierre Joseph Pelletier in 1817. In an extraction by Zvezdanoicet al, (2009), Fresh plant leaves were first depleted from the mid ribs and washed with cold water. The extraction and re-extraction mixtures were methanol and petroleum ether in a 2:1 ratio, and petroleum ether and diethyl ether (1:1), respectively. Chlorophylls belong to the group of the most important bioorganic molecules; they are the principal pigments in photosynthesis, capable of light energy absorbing and its conversion to “chemical energy” by the formation of chemical compounds rich in energy (needed for the biosynthesis of carbohydrates and other compounds in photosynthetic organisms such as plants, algae and photosynthetic bacteria (Scheer, 1991 and 2006).The chlorophylls comprise a group of more than 50 tetrapyrrolic pigments with common structural elements and function (Scheer, 2006).
选定蔬菜(苦叶-苦杏仁、木瓜叶-番木瓜、南瓜叶-西洋莲)叶绿素提取与贮藏研究
叶绿素是在蓝藻和藻类及植物叶绿体中发现的几种密切相关的色素的统称。叶绿素是一种绿色色素,负责树叶的颜色。它在叶片中的存在对光合作用至关重要。叶绿素在电磁波谱的蓝色部分吸收光最强烈,其次是红色部分。相反,它对光谱中的绿色和近绿色部分吸收不良,因此含有叶绿素的组织呈绿色。本研究考察了提取溶剂和储存方式对蔬菜(苦叶、木瓜叶和南瓜叶)叶绿素提取的影响,并观察了室温下叶绿素a和叶绿素衍生物叶绿素a在430nm和660nm处的吸光度变化,1个月的水活度(aw)分别为0.33和0.75。在储存期间,每周对所有提取物进行紫外可见扫描。在430nm和660nm处的吸光度测量表明,在提取后的最初阶段,提取物的吸光度值根据提取溶剂的极性顺序依次变化。极性顺序为去离子水>乙醇>丙酮>石油醚>正己烷。对室温、提取后和储存1个月后的提取物进行紫外可见扫描,发现叶绿素a和叶绿素b占主导地位。对水活度(aw)为0.33的提取物进行紫外可见扫描,发现叶绿素b在467nm、473nm处转化为叶绿素a,在448nm、671nm处转化为叶绿素a,在1个月后储存1个月,叶绿素a转化为一种未知化合物,在331nm或333nm处吸收。对水活度(aw)为0.75的提取物进行紫外可见扫描,发现叶绿素a和叶绿素b转化为一种未知化合物,在331nm或333nm处吸收。在水活度(aw)为0.33的条件下,提取液的pH值在一个月后显示出酸度的增加。在水活度(aw)为0.75的条件下,除木瓜叶提取物的酸度增加外,其他提取物的pH值均呈微碱性。初始比重与最终比重的差异表明,贮藏1个月后,提取物的叶绿素含量有所降低。部分蔬菜(苦叶扁桃叶、木瓜叶、木瓜叶和南瓜叶)叶绿素的提取和贮藏研究[j] .国际化学科学高级研究杂志(英文版)第41页叶绿素于1817年由Joseph bienaim caventou和Pierre Joseph Pelletier首次分离得到。在Zvezdanoicet等人(2009)的提取中,首先从中部肋骨中提取新鲜植物叶片并用冷水洗涤。萃取和再萃取的混合物分别为甲醇与石油醚的比例为2:1,石油醚与乙醚的比例为1:1。叶绿素是最重要的一类生物有机分子;它们是光合作用中的主要色素,能够吸收光能并通过形成富含能量的化合物(植物、藻类和光合细菌等光合生物合成碳水化合物和其他化合物所需的化合物)将光能转化为“化学能”(Scheer, 1991和2006)。叶绿素由50多种四吡啶色素组成,具有共同的结构元素和功能(Scheer, 2006)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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