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硅藻(硅藻纲)中的细胞外基质组装。三。长柄曲壳藻粘附柄内岩藻糖醛酸半乳聚糖的组织

Extracellular matrix assembly in diatoms (Bacillariophyceae). Iii. Organization Of fucoglucuronogalactans within the adhesive stalks of achnanthes longipes.

作者信息

Wustman BA, Lind J, Wetherbee R, Gretz MR

出版信息

Plant Physiol. 1998 Apr;116(4):1431-41. doi: 10.1104/pp.116.4.1431.

DOI:10.1104/pp.116.4.1431
PMID:9536061
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC35051/
Abstract

Achnanthes longipes is a marine, biofouling diatom that adheres to surfaces via adhesive polymers extruded during motility or organized into structures called stalks that contain three distinct regions: the pad, shaft, and collar. Four monoclonal antibodies (AL.C1-AL.C4) and antibodies from two uncloned hybridomas (AL.E1 and AL.E2) were raised against the extracellular adhesives of A. longipes. Antibodies were screened against a hot-water-insoluble/hot-bicarbonate-soluble-fraction. The hot-water-insoluble/hot-bicarbonate-soluble fraction was fractionated to yield polymers in three size ranges: F1, >/= 20,000, 000 Mr; F2, congruent with100,000 Mr; and F3, <10,000 Mr relative to dextran standards. The congruent with100,000-Mr fraction consisted of highly sulfated (approximately 11%) fucoglucuronogalactans (FGGs) and low-sulfate (approximately 2%) FGGs, whereas F1 was composed of O-linked FGG (F2)-polypeptide (F3) complexes. AL.C1, AL.C2, AL.C4, AL.E1, and AL.E2 recognized carbohydrate complementary regions on FGGs, with antigenicity dependent on fucosyl-containing side chains. AL.C3 was unique in that it had a lower affinity for FGGs and did not label any portion of the shaft. Enzyme-linked immunosorbent assay and immunocytochemistry indicated that low-sulfate FGGs are expelled from pores surrounding the raphe terminus, creating the cylindrical outer layers of the shaft, and that highly sulfated FGGs are extruded from the raphe, forming the central core. Antibody-labeling patterns and other evidence indicated that the shaft central-core region is related to material exuded from the raphe during cell motility.

摘要

长柄曲壳藻是一种海洋污损硅藻,通过在运动过程中分泌的粘性聚合物附着于表面,或者形成称为柄的结构,柄包含三个不同区域:垫、轴和环。针对长柄曲壳藻的细胞外粘附物制备了四种单克隆抗体(AL.C1 - AL.C4)以及来自两个未克隆杂交瘤的抗体(AL.E1和AL.E2)。抗体针对热水不溶性/热碳酸氢盐可溶性部分进行筛选。将热水不溶性/热碳酸氢盐可溶性部分进行分级分离,得到三种分子量范围的聚合物:F1,分子量≥20,000,000;F2,约为100,000分子量;F3,相对于葡聚糖标准分子量<10,000。约100,000分子量的部分由高度硫酸化(约11%)的岩藻糖葡糖醛酸半乳聚糖(FGG)和低硫酸化(约2%)的FGG组成,而F1由O - 连接的FGG(F2) - 多肽(F3)复合物组成。AL.C1、AL.C2、AL.C4、AL.E1和AL.E2识别FGG上的碳水化合物互补区域,其抗原性取决于含岩藻糖的侧链。AL.C3的独特之处在于它对FGG的亲和力较低,并且不标记轴的任何部分。酶联免疫吸附测定和免疫细胞化学表明,低硫酸化的FGG从具壳缝末端周围的孔中排出,形成轴的圆柱形外层,而高度硫酸化的FGG从壳缝中挤出,形成中央核心。抗体标记模式和其他证据表明,轴中央核心区域与细胞运动过程中从壳缝分泌的物质有关。

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