20種不同的有機(jī)分子結(jié)合起來(lái)組成多肽鏈或蛋白質(zhì)。這20個(gè)氨基酸主結(jié)構(gòu)相同,但每種又分別有各自不同的側(cè)基團(tuán)。氨基酸的主要結(jié)構(gòu)包括氨基(-NH2),羧基(-COOH)和中央碳原子,20個(gè)不同的側(cè)鏈(R基團(tuán))就結(jié)合在上面。R基團(tuán)賦予氨基酸物理化學(xué)特性,例如極性(親水性和疏水性)以及電荷(酸性或正電荷,堿性或負(fù)電荷)。氨基酸連接起來(lái)形成多肽鏈,多肽鏈又折疊壓縮成球狀三維結(jié)構(gòu)的功能蛋白。這種三維構(gòu)造通過(guò)肽鏈上不同部位上的氨基酸連在一起,決定了蛋白活性。因此氨基酸序列和組成決定了蛋白的形狀和功能活性。
One of the 20 different organic molecules that are joined together to form a polypeptide chain or a protein The twenty amino acids share a common backbone, but each has a specific side-group. The backbone structure of an amino acid consists of an amino (-NH2) group, a carboxylic acid (-COOH) group, and a central carbon atom (designated C-alpha), to which one of twenty different side chains (the R-group) is attached. The R-groups give the amino acids their physical-chemical characteristics such as polarity (hydrophobic or hydrophilic) and charge (acidic or positive versus basic or negative). The joining of the amino acids into a chain results in the formation of a polypeptide chain which then folds into the compact, globular three-dimensional structure that is a functional protein. This three-dimensional conformation is held together by the interactions of the amino acids at different parts of the polypeptide chain with each other, and determines the activity of the protein. Thus, the amino acid order and content determines the shape and functional activity of the protein.