A low-tech, cost-effective and efficient method for safeguarding genetic diversity by direct cryopreservation of poultry embryonic reproductive cells.
Tuanjun HuLorna TaylorAdrian ShermanChristian Keambou TiamboSteven J KempC Bruce A WhitelawRachel J HawkenAppolinaire DjikengMichael J McGrewPublished in: eLife (2022)
Chickens are an important resource for smallholder farmers who raise locally adapted, genetically distinct breeds for eggs and meat. The development of efficient reproductive technologies to conserve and regenerate chicken breeds safeguards existing biodiversity and secures poultry genetic resources for climate resilience, biosecurity, and future food production. The majority of the over 1600 breeds of chicken are raised in low and lower to middle income countries under resource-limited, small-scale production systems, which necessitates a low-tech, cost-effective means of conserving diversity is needed. Here, we validate a simple biobanking technique using cryopreserved embryonic chicken gonads. The gonads are quickly isolated, visually sexed, pooled by sex, and cryopreserved. Subsequently, the stored material is thawed and dissociated before injection into sterile host chicken embryos. By using pooled GFP and RFP-labelled donor gonadal cells and Sire Dam Surrogate mating, we demonstrate that chicks deriving entirely from male and female donor germ cells are hatched. This technology will enable ongoing efforts to conserve chicken genetic diversity for both commercial and smallholder farmers, and to preserve existing genetic resources at poultry research facilities.
Keyphrases
- cell death
- cell cycle arrest
- genetic diversity
- induced apoptosis
- climate change
- gene expression
- randomized controlled trial
- signaling pathway
- social support
- dna methylation
- mental health
- ultrasound guided
- radiation therapy
- lymph node
- neoadjuvant chemotherapy
- physical activity
- pregnant women
- umbilical cord
- current status
- room temperature
- phase iii