Department of Biochemistry, Kansas State University, 141 Chalmers Hall, Manhattan, KS 66506-3702, USA.
Insect Biochem Mol Biol. 2010 Mar;40(3):214-27. doi: 10.1016/j.ibmb.2010.01.011. Epub 2010 Feb 6.
This study is focused on the characterization and expression of genes in the red flour beetle, Tribolium castaneum, encoding proteins that possess one or more six-cysteine-containing chitin-binding domains related to the peritrophin A domain (ChtBD2). An exhaustive bioinformatics search of the genome of T. castaneum queried with ChtBD2 sequences yielded 13 previously characterized chitin metabolic enzymes and 29 additional proteins with signal peptides as well as one to 14 ChtBD2s. Using phylogenetic analyses, these additional 29 proteins were classified into three large families. The first family includes 11 proteins closely related to the peritrophins, each containing one to 14 ChtBD2s. These are midgut-specific and are expressed only during feeding stages. We propose the name "Peritrophic Matrix Proteins" (PMP) for this family. The second family contains eight proteins encoded by seven genes (one gene codes for 2 splice variants), which are closely related to gasp/obstructor-like proteins that contain 3 ChtBD2s each. The third family has ten proteins that are of diverse sizes and sequences with only one ChtBD2 each. The genes of the second and third families are expressed in non-midgut tissues throughout all stages of development. We propose the names "Cuticular Proteins Analogous to Peritophins 3" (CPAP3) for the second family that has three ChtBD2s and "Cuticular Proteins Analogous to Peritophins 1 (CPAP1) for the third family that has 1 ChtBD2. Even though proteins of both CPAP1 and CPAP3 families have the "peritrophin A" domain, they are expressed only in cuticle-forming tissues. We determined the exon-intron organization of the genes, encoding these 29 proteins as well as the domain organization of the encoded proteins with ChtBD2s. All 29 proteins have predicted cleavable signal peptides and ChtBD2s, suggesting that they interact with chitin in extracellular locations. Comparison of ChtBD2s-containing proteins in different insect species belonging to different orders suggests that ChtBD2s are ancient protein domains whose affinity for chitin in extracellular matrices has been exploited many times for a range of biological functions. The differences in the expression profiles of PMPs and CPAPs indicate that even though they share the peritrophin A motif for chitin binding, these three families of proteins have quite distinct biological functions.
本研究专注于特征描述和基因表达,研究对象为编码蛋白的赤拟谷盗(Tribolium castaneum),这些蛋白具有一个或多个与围食膜 A 域(ChtBD2)相关的六半胱氨酸富含几丁质结合域。对赤拟谷盗基因组进行详尽的生物信息学搜索,使用 ChtBD2 序列进行查询,得到了 13 种先前表征的几丁质代谢酶和 29 种具有信号肽的其他蛋白,以及 1 到 14 个 ChtBD2。通过系统发育分析,这 29 种额外的蛋白被分为三大类。第一类包括 11 种与围食膜蛋白密切相关的蛋白,每种蛋白都含有 1 到 14 个 ChtBD2。这些蛋白是中肠特异性的,仅在进食阶段表达。我们将该家族命名为“围食膜基质蛋白”(PMP)。第二类包含 7 个基因编码的 8 种蛋白(一个基因编码 2 个剪接变体),这些蛋白与含有 3 个 ChtBD2 的气蛋白/阻塞蛋白样蛋白密切相关。第三类有 10 种蛋白,大小和序列各不相同,每种蛋白都只有一个 ChtBD2。第二和第三类家族的基因在整个发育阶段的非中肠组织中表达。我们将第二类具有 3 个 ChtBD2 的基因命名为“与围食膜蛋白 3 类似的角质蛋白”(CPAP3),将第三类具有 1 个 ChtBD2 的基因命名为“与围食膜蛋白 1 类似的角质蛋白”(CPAP1)。尽管 CPAP1 和 CPAP3 家族的蛋白都具有“围食膜 A”结构域,但它们仅在形成角质层的组织中表达。我们确定了这些 29 种蛋白的基因的外显子-内含子组织以及编码蛋白的 ChtBD2 结构域组织。所有 29 种蛋白都具有可切割的信号肽和 ChtBD2,表明它们在细胞外位置与几丁质相互作用。比较不同目昆虫中含有 ChtBD2 的蛋白表明,ChtBD2 是古老的蛋白结构域,其与细胞外基质中几丁质的亲和力已被多次用于多种生物学功能。PMP 和 CPAP 的表达谱差异表明,尽管它们具有相同的几丁质结合围食膜 A 基序,但这三个家族的蛋白具有截然不同的生物学功能。
