Łukasz Gajda, Agata Daszkowska-Golec, Piotr Świątek
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We also compared coding sequence variants of α-amylase retrieved from transcriptomic data related to freeze-tolerant strains. Our results reveal that </span><em>E</em>. <em>albidus</em> possesses two distinct α-amylase genes (Amy I and Amy II) that are homologs to earthworm <span><em>Eisenia fetida</em></span> Ef-Amy genes. Different strains of <em>E</em>. <em>albidus</em><span> possess distinctive alleles of α-amylases with unique SNP patterns specific to a particular strain. Unlike Amy II, Amy I seems to be a highly polymorphic and multicopy gene. The domain architecture of the putative Amy proteins was found the same as for classical animal α-amylases with ABC-domains. A characteristic feature of Amy II is the lack of GHGA motif in the flexible loop region, similarly to many insect amylases. We identified “</span><em>Enchytraeus</em>-<em>Eisenia</em><span> type” α-amylase homologs in other clitellates<span><span> and polychaetes, indicating the ancestral origin of Amy I/II proteins in Annelida. This study provides the first insight into the endogenous non-proteolytic digestive enzyme genes in potworms, discusses the evolution of Amy α-amylases in Annelida, and explores </span>phylogenetic implications.</span></span></p></div>","PeriodicalId":251,"journal":{"name":"Biochimie","volume":"221 ","pages":"Pages 38-59"},"PeriodicalIF":3.3000,"publicationDate":"2024-01-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Discovery and characterization of the α-amylases cDNAs from Enchytraeus albidus shed light on the evolution of “Enchytraeus-Eisenia type” Amy homologs in Annelida\",\"authors\":\"Łukasz Gajda, Agata Daszkowska-Golec, Piotr Świątek\",\"doi\":\"10.1016/j.biochi.2024.01.008\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p><span>Although enchytraeids<span> have gained popularity in scientific research, fundamental questions regarding their feeding ecology and biology remain largely unexplored. This study investigates α-amylases, major digestive enzymes<span> responsible for hydrolyzing starch and similar polysaccharides into sugars, in </span></span></span><span><em>Enchytraeus albidus</em></span><span>. Genetic data related to α-amylases is currently lacking for the family Enchytraeidae but also for the entire Annelida. To detect and identify coding sequences of the expressed α-amylase genes in COI-monohaplotype culture (PL-A strain) of </span><em>E</em>. <em>albidus</em><span>, we used classical “gene fishing” and transcriptomic approaches. We also compared coding sequence variants of α-amylase retrieved from transcriptomic data related to freeze-tolerant strains. Our results reveal that </span><em>E</em>. <em>albidus</em> possesses two distinct α-amylase genes (Amy I and Amy II) that are homologs to earthworm <span><em>Eisenia fetida</em></span> Ef-Amy genes. Different strains of <em>E</em>. <em>albidus</em><span> possess distinctive alleles of α-amylases with unique SNP patterns specific to a particular strain. Unlike Amy II, Amy I seems to be a highly polymorphic and multicopy gene. The domain architecture of the putative Amy proteins was found the same as for classical animal α-amylases with ABC-domains. A characteristic feature of Amy II is the lack of GHGA motif in the flexible loop region, similarly to many insect amylases. We identified “</span><em>Enchytraeus</em>-<em>Eisenia</em><span> type” α-amylase homologs in other clitellates<span><span> and polychaetes, indicating the ancestral origin of Amy I/II proteins in Annelida. 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引用次数: 0
摘要
尽管虾夷鱼在科学研究中越来越受欢迎,但有关其摄食生态学和生物学的基本问题在很大程度上仍未得到探讨。本研究调查了白尾 Enchytraeus 中负责将淀粉和类似多糖水解为糖的主要消化酶 α-淀粉酶。目前,不仅 Enchytraeidae 科,而且整个无脊椎动物都缺乏与 α 淀粉酶有关的遗传数据。为了检测和鉴定白栉水母 COI 单倍型培养物(PL-A 株系)中表达的 α 淀粉酶基因的编码序列,我们采用了经典的 "基因捕捞 "和转录组学方法。我们还比较了从与耐冻菌株相关的转录组数据中检索到的α-淀粉酶编码序列变体。我们的研究结果表明,白垩藻拥有两个不同的α-淀粉酶基因(Amy I和Amy II),它们与蚯蚓Eisenia fetida的Ef-Amy基因同源。白蚯蚓的不同菌株拥有不同的α-淀粉酶等位基因,具有特定菌株特有的 SNP 模式。与 Amy II 不同,Amy I 似乎是一个高度多态和多拷贝的基因。推测的 Amy 蛋白的结构域与具有 ABC 结构域的经典动物 α 淀粉酶相同。与许多昆虫淀粉酶类似,Amy II 的一个特征是在柔性环区域缺乏 GHGA 基序。我们在其他有节类动物和多毛目动物中发现了 "Enchytraeus-Eisenia型 "α-淀粉酶同源物,这表明Amy I/II蛋白的祖先起源于有节类动物。这项研究首次揭示了锅虫的内源性非蛋白酶消化酶基因,讨论了无针虫中艾米α-淀粉酶的进化,并探讨了其系统发育意义。
Discovery and characterization of the α-amylases cDNAs from Enchytraeus albidus shed light on the evolution of “Enchytraeus-Eisenia type” Amy homologs in Annelida
Although enchytraeids have gained popularity in scientific research, fundamental questions regarding their feeding ecology and biology remain largely unexplored. This study investigates α-amylases, major digestive enzymes responsible for hydrolyzing starch and similar polysaccharides into sugars, in Enchytraeus albidus. Genetic data related to α-amylases is currently lacking for the family Enchytraeidae but also for the entire Annelida. To detect and identify coding sequences of the expressed α-amylase genes in COI-monohaplotype culture (PL-A strain) of E. albidus, we used classical “gene fishing” and transcriptomic approaches. We also compared coding sequence variants of α-amylase retrieved from transcriptomic data related to freeze-tolerant strains. Our results reveal that E. albidus possesses two distinct α-amylase genes (Amy I and Amy II) that are homologs to earthworm Eisenia fetida Ef-Amy genes. Different strains of E. albidus possess distinctive alleles of α-amylases with unique SNP patterns specific to a particular strain. Unlike Amy II, Amy I seems to be a highly polymorphic and multicopy gene. The domain architecture of the putative Amy proteins was found the same as for classical animal α-amylases with ABC-domains. A characteristic feature of Amy II is the lack of GHGA motif in the flexible loop region, similarly to many insect amylases. We identified “Enchytraeus-Eisenia type” α-amylase homologs in other clitellates and polychaetes, indicating the ancestral origin of Amy I/II proteins in Annelida. This study provides the first insight into the endogenous non-proteolytic digestive enzyme genes in potworms, discusses the evolution of Amy α-amylases in Annelida, and explores phylogenetic implications.
期刊介绍:
Biochimie publishes original research articles, short communications, review articles, graphical reviews, mini-reviews, and hypotheses in the broad areas of biology, including biochemistry, enzymology, molecular and cell biology, metabolic regulation, genetics, immunology, microbiology, structural biology, genomics, proteomics, and molecular mechanisms of disease. Biochimie publishes exclusively in English.
Articles are subject to peer review, and must satisfy the requirements of originality, high scientific integrity and general interest to a broad range of readers. Submissions that are judged to be of sound scientific and technical quality but do not fully satisfy the requirements for publication in Biochimie may benefit from a transfer service to a more suitable journal within the same subject area.