Naturally occurring haploids are predominantly documented in plants; the first report dates to 1923, when haploid individuals were identified in the Jimson Weed. Haploidy also occurs in certain animal lineages, most notably in the haplodiploid sex-determination system of hymenopteran and dipteran, such as bees where males develop from unfertilized eggs and are therefore functionally haploid. However, experimentally induced haploid animals—particularly vertebrates—typically exhibit severe developmental defects collectively termed "haploid syndrome", which culminate in embryonic lethality.
A new study published in the KeAi journal Reproduction and Breeding sheds light on why haploid fish embryos often fail to survive normal development. Researchers from Hunan Normal University created haploid zebrafish embryos by activating eggs with ultraviolet-treated sperm. Unlike normal embryos, which inherit two sets of chromosomes, these embryos carried only one.
"We found that haploid embryos appeared normal during the very earliest stages of development. However, as development progressed, serious problems began to emerge," shares senior and co-corresponding author Liangyue Peng. "Many embryos developed curved body axes, swelling around the heart, reduced swimming ability, and died early."
Notably, their rates of gastrulation and hatching were also far lower than those of normal diploid embryos. To investigate the cause, the researchers compared gene activity in three groups: haploid embryos, normal diploid embryos, and malformed diploid embryos.
"Using RNA sequencing, we identified 2,247 genes with altered activity, including 13 key genes that were consistently associated with abnormal development," adds Peng. "Further analysis showed that these genes are involved in several essential biological processes, including developmental signaling, energy production, ion balance, and cell growth."
In particular, the study pointed to disruptions in the FGF and Wnt signaling pathways, mitochondrial translation, ion transport, and cell-cycle regulation. Also, haploid syndrome does not appear to result from a single defect. Instead, it is likely caused by the combined breakdown of multiple developmental and metabolic systems that embryos need in order to grow normally.
"The findings help explain why haploid embryos, although useful for rapid genetic screening because recessive traits can be seen directly, are difficult to use in breeding and developmental research," says Peng.
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Contact the author: Liangyue Peng, College of Life Sciences, Hunan Normal University, Changsha, Hunan, PR China, ply@hunnu.edu.cn
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Reproduction and Breeding
Experimental study
Animals
Induction of haploid zebrafish and analysis of resultant developmental defects and aberrant gene expression
The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.