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← Back to Discoveries | PubMed → · research article 2026-04-22 synthesized

Transcriptomics Unveil Dsx1 as a Critical Regulator in Sexual Dimorphism of Crustaceans.

Tong Y, Xin W, Liu Z, Zheng Y, Huang M

Crispr

CRISPR gene-editing tools validated here on crustaceans are the same tools plant breeders now use to develop drought-resistant and disease-resistant crops you find at the grocery store — every advance in CRISPR precision in any organism trickles directly into the plant science toolkit.

Researchers studied tiny shrimp-like animals and found one gene acts like a biological dial that decides whether males grow their distinctive large claws. When they turned off that gene using a molecular scissors tool called CRISPR, males grew female-shaped limbs instead. This shows how a single gene can be responsible for dramatic physical differences between males and females across many animal groups.

Key Findings

1

Dsx1 shows male-biased expression throughout leg development in male amphipod crustaceans (Morinoia aosen)

2

RNA interference knockdown of Dsx1 caused feminization of regenerated male legs, directly linking the gene to sexually dimorphic traits

3

CRISPR-Cas9 knockout in a crustacean model species (Parhyale hawaiensis) confirmed feminization of male legs, validating conserved Dsx1 function across species

chevron_right Technical Summary

Scientists identified a gene called Dsx1 that controls whether crustaceans (small shrimp-like animals) develop male or female physical traits. When they disabled this gene using CRISPR, male crustaceans grew female-shaped legs — confirming Dsx1 as a master switch for sex-specific body features.

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Abstract Preview

Sexually dimorphic traits are involved in reproductive competition and are specified during development through sex-biased gene expression programs. Here, we test this hypothesis using RNA-seq data...

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Abstract copyright held by the original publisher.

hub This connects to 9 other discoveries — crispr, gene-regulation, developmental-biology +1 more 5 related articles
crispr gene-regulation developmental-biology sexual-dimorphism

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