Wu A M, Pigman W
Biochem J. 1977 Jan 1;161(1):37-47. doi: 10.1042/bj1610037.
The nine-banded armadillo (Dasypus novemcinctus mexicanus Peters) was chosen for this study so that a comparison could be made of the salivary mucus glycoproteins of an ancient mammalian species with those derived from previously studied, more highly evolved species. Two mucus glycoproteins, armadillo submandibular glycoprotein A and armadillo submandibular glycoprotein B, were prepared from the armadillo submandibular gland by a modification of the method of Tettamanti & Pigman (1968) (Arch. Biochem. Biophys. 124, 41-50). The composition of glycoprotein A is the simplest one among the known mucus glycoproteins. Six amino acids constitute 98.5 mol/100mol of the protein of glycoprotein A and 82 mol/100 mol of that of glycoprotein B. These are serine and threonine (which make up 40-50% of the molar amino acid composition), glutamic acid, glycine alanine and valine. Proline is absent from glycoprotein A and comprises only 2.3% of glycoprotein B. For both glycoproteins, the protein content, as determined by the method of Lowry, Rosebrough, Farr & Randall (1951) (J. Biol. Chem 193, 265-275), with bovine serum albumin as standard, was nearly 60% higher than when determined by the sum of the amino acids. The ratios of total mol of amino acid/total mol of carbohydrate are 1:0.63 for glycoprotein A and 1:0.68 for glycoprotein B, N-Acetylneuraminic acid and N-acetylgalactosamine, in a molar ratio of about 0.35:1.00, are the principal carbohydrates present in both glycoproteins. Neutral sugars seem to be absent from glycoprotein A, but galactose and fucose are present in glycoprotein B. The carbohydrate side chains in glycoprotein A are composed of about two-thirds monosaccharide and one-third disaccharide residues, whereas those of glycoprotein B are more complex. For both glycoproteins, essentially all of the N-acetylgalactosamine was attached O-glycosidically to the hydroxyamino acid residues of the protein core. The linkage of N-acetylneuraminic acid glycoprotein A was extremely sensitive to dilute acid and neuraminidase. Glycoprotein B has chemical properties similar to those of glycoprotein A. However, whereas glycoprotein A was susceptible to both Clostridium perfringens and Vibrio cholerae neuraminidases, only the latter enzyme had an effect on glycoprotein B at pH 4.75. Both glycoproteins were homogeneous by cellulose acetate electrophoresis and ultracentrifugal analyses. The apparent mol.wts. of glycoprotein A and glycoprotein B were 7.8 X 10(4) and 3.1 X 10(4) respectively.
本研究选用九带犰狳(Dasypus novemcinctus mexicanus Peters),以便将一种古老哺乳动物物种的唾液黏液糖蛋白与先前研究的进化程度更高的物种的唾液黏液糖蛋白进行比较。通过对Tettamanti和Pigman(1968年)(《生物化学与生物物理学文献》124卷,41 - 50页)方法的改进,从犰狳下颌下腺制备了两种黏液糖蛋白,即犰狳下颌下糖蛋白A和犰狳下颌下糖蛋白B。糖蛋白A的组成是已知黏液糖蛋白中最简单的。六种氨基酸构成糖蛋白A蛋白质的98.5摩尔/100摩尔以及糖蛋白B蛋白质的82摩尔/100摩尔。这些氨基酸是丝氨酸和苏氨酸(占摩尔氨基酸组成的40 - 50%)、谷氨酸、甘氨酸、丙氨酸和缬氨酸。糖蛋白A中没有脯氨酸,脯氨酸仅占糖蛋白B的2.3%。对于这两种糖蛋白,用Lowry、Rosebrough、Farr和Randall(1951年)(《生物化学杂志》193卷,265 - 275页)的方法,以牛血清白蛋白为标准测定的蛋白质含量,比通过氨基酸总和测定的结果高近60%。糖蛋白A的氨基酸总摩尔数与碳水化合物总摩尔数之比为1:0.63,糖蛋白B为1:0.68。N - 乙酰神经氨酸和N - 乙酰半乳糖胺以约0.35:1.00的摩尔比是两种糖蛋白中主要的碳水化合物。糖蛋白A中似乎没有中性糖,但糖蛋白B中有半乳糖和岩藻糖。糖蛋白A中的碳水化合物侧链约由三分之二的单糖残基和三分之一的二糖残基组成,而糖蛋白B的则更复杂。对于这两种糖蛋白,基本上所有的N - 乙酰半乳糖胺都以O - 糖苷键连接到蛋白质核心的羟氨基酸残基上。糖蛋白A中N - 乙酰神经氨酸的连接对稀酸和神经氨酸酶极其敏感。糖蛋白B的化学性质与糖蛋白A相似。然而,糖蛋白A对产气荚膜梭菌和霍乱弧菌神经氨酸酶都敏感,而在pH 4.75时,只有后者的酶对糖蛋白B有作用。通过醋酸纤维素电泳和超速离心分析,两种糖蛋白都是均一的。糖蛋白A和糖蛋白B的表观分子量分别为7.8×10⁴和3.1×10⁴。
