Neofunctionalization of a duplicate hatching enzyme gene during the evolution of teleost fishes

Sano, Kôkichi; Kawaguchi, Mari; Watanabe, Satoshi; Yasumasu, Shigeki

doi:10.1186/s12862-014-0221-0

Cited by 16 publications

(21 citation statements)

References 35 publications

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“…As a result of hardening, the fertilized egg envelope becomes insoluble in denaturing reagents, such as urea and SDS. In contrast, the unfertilized egg envelope is generally solubilized by boiling in those reagents, and the component proteins (ZP proteins) dissociate into their monomeric forms (Sano et al., , , ; Yasumasu et al., ). However, the unfertilized Pacific herring egg envelopes did not dissolve completely by boiling in SDS, suggesting that they were partially hardened in the developing oocyte before fertilization.…”

Section: Resultsmentioning

confidence: 99%

Comparison of Egg Envelope Thickness in Teleosts and its Relationship to the Sites of ZP Protein Synthesis

et al. 2017

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Teleost egg envelope generally consists of a thin outer layer and a thick inner layer. The inner layer of the Pacific herring egg envelope is further divided into distinct inner layers I and II. In our previous study, we cloned four zona pellucida (ZP) proteins (HgZPBa, HgZPBb, HgZPCa, and HgZPCb) from Pacific herring, two of which (HgZPBa and HgZPCa) were synthesized in the liver and two (HgZPBb and HgZPCb) in the ovary. In this study, we raised antibodies against these four proteins to identify their locations using immunohistochemistry. Our results suggest that inner layer I is constructed primarily of HgZPBa and Ca, whereas inner layer II consists primarily of HgZPBa. HgZPBb and Cb were minor components of the envelope. Therefore, the egg envelope of Pacific herring is primarily composed of liver-synthesized ZP proteins. A comparison of the thickness of the fertilized egg envelopes of 55 species suggested that egg envelopes derived from liver-synthesized ZP proteins tended to be thicker in demersal eggs than those in pelagic eggs, whereas egg envelopes derived from ovarian-synthesized ZP proteins had no such tendency. Our comparison suggests that the prehatching period of an egg with a thick egg envelope is longer than that of an egg with a thin egg envelope. We hypothesized that acquisition of liver-synthesized ZP proteins during evolution conferred the ability to develop a thick egg envelope, which allowed species with demersal eggs to adapt to mechanical stress in the prehatching environment by thickening the egg envelope, while pelagic egg envelopes have remained thin.

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Section: Resultsmentioning

confidence: 99%

Comparison of Egg Envelope Thickness in Teleosts and its Relationship to the Sites of ZP Protein Synthesis

et al. 2017

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“…According to Sano et al (), ancestral teleostean hatching enzyme is considered to have only a swelling effect. Thus, ancestral teleostean embryos could hatch out by swelling and softening the egg envelope and rupturing it by the subsequent movement of embryos.…”

Section: Discussionmentioning

confidence: 99%

An evolutionary insight into the hatching strategies of pipefish and seahorse embryos

Kawaguchi

Nakano

Kawahara-Miki

et al. 2016

J. Exp. Zool. (Mol. Dev. Evol.)

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Syngnathiform fishes carry their eggs in a brood structure found in males. The brood structure differs from species to species: seahorses carry eggs within enclosed brood pouch, messmate pipefish carry eggs in the semi-brood pouch, and alligator pipefish carry eggs in the egg compartment on abdomen. These egg protection strategies were established during syngnathiform evolution. In the present study, we compared the hatching mode of protected embryos of three species. Electron microscopic observations revealed that alligator pipefish and messmate pipefish egg envelopes were thicker than those of seahorses, suggesting that the seahorse produces a weaker envelope. Furthermore, molecular genetic analysis revealed that these two pipefishes possessed the egg envelope-digesting enzymes, high choriolytic enzyme (HCE), and low choriolytic enzyme (LCE), as do many euteleosts. In seahorses, however, only HCE gene expression was detected. When searching the entire seahorse genome by high-throughput DNA sequencing, we did not find a functional LCE gene and only a trace of the LCE gene exon was found, confirming that the seahorse LCE gene was pseudogenized during evolution. Finally, we estimated the size and number of hatching gland cells expressing hatching enzyme genes by whole-mount in situ hybridization. The seahorse cells were the smallest of the three species, while they had the greatest number. These results suggest that the isolation of eggs from the external environment by paternal bearing might bring the egg envelope thin, and then, the hatching enzyme genes became pseudogenized. J. Exp. Zool. (Mol. Dev. Evol.) 9999B:XX-XX, 2016. © 2016 Wiley Periodicals, Inc.

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“…The zebrafish genome encodes 2 HEs (zHE1 and zHE2). zHE1 mRNA is detected as early as 19 hpf and is no longer detected post-hatch, but zHE2 is not expressed at these time points [22,23]. There is evidence of sub-functionalization of HE paralogues in some teleost lineages, but zHE2 is not thought to be relevant for hatching in zebrafish [23]; we will not consider it further.…”

Section: Introductionmentioning

confidence: 97%

“…zHE1 mRNA is detected as early as 19 hpf and is no longer detected post-hatch, but zHE2 is not expressed at these time points [22,23]. There is evidence of sub-functionalization of HE paralogues in some teleost lineages, but zHE2 is not thought to be relevant for hatching in zebrafish [23]; we will not consider it further. Purified recombinant activated zHE1 degrades ZP proteins from chorions of unfertilized eggs and fertilized embryos at specific cleavage sites in vitro [22], but it remains unclear how the activity of this enzyme is regulated in vivo.…”

Section: Introductionmentioning

confidence: 97%

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Matrix Metalloproteinase 13 Activity is Required for Normal and Hypoxia-Induced Precocious Hatching in Zebrafish Embryos

Small

el-Khoury

Deslongchamps

et al. 2020

JDB

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Hypoxia induces precocious hatching in zebrafish, but we do not have a clear understanding of the molecular mechanisms regulating the activation of the hatching enzyme or how these mechanisms trigger precocious hatching under unfavorable environmental conditions. Using immunohistochemistry, pharmacological inhibition of matrix metalloproteinase 13 (Mmp13), and in vivo zymography, we show that Mmp13a is present in the hatching gland just as embryos become hatching competent and that Mmp13a activity is required for both normal hatching and hypoxia-induced precocious hatching. We conclude that Mmp13a likely functions in activating the hatching enzyme zymogen and that Mmp13a activity is necessary but not sufficient for hatching in zebrafish. This study highlights the broad nature of MMP function in development and provides a non-mammalian example of extra-embryonic processes mediated by MMP activity.

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Neofunctionalization of a duplicate hatching enzyme gene during the evolution of teleost fishes

Cited by 16 publications

References 35 publications

Comparison of Egg Envelope Thickness in Teleosts and its Relationship to the Sites of ZP Protein Synthesis

Comparison of Egg Envelope Thickness in Teleosts and its Relationship to the Sites of ZP Protein Synthesis

An evolutionary insight into the hatching strategies of pipefish and seahorse embryos

Matrix Metalloproteinase 13 Activity is Required for Normal and Hypoxia-Induced Precocious Hatching in Zebrafish Embryos

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