Comparative transcriptome analysis of the effect of different heat shock periods on the unfertilized ovule in watermelon(Citrullus lanatus)

In vitro gynogenesis is an important tool used in haploid or homozygous double-haploid plant breeding.However,because of low repeatability,embryoid induction rate and quality,the molecular mechanisms remain poorly understood.Heat shock treatment can promote the transformation of the gametophytic pathway into the sporophyte pathway,which induces the occurrence of haploid.In this study,unfertilized ovaries were heat shocked for 0 h(A0)before flowering and for 0 h(A1),4 h(A3),8 h(A5),12 h(A7),and 24 h(A8),respectively,at 37℃at the first day of the flowering stage.The ovule enlargement rate was increased from 0%at 25℃to 96.8%at 37℃(24 h treatment).Thus,we aimed to investigate the gene expression patterns in unfertilized ovules of watermelon after different periods of heat shock by using RNA-Seq technology.The results showed that compared with A3,A5,A7,and A8,the biosynthesis of amino acid,glycine,serine and threonine metabolic pathways in A1 has changed significantly.This indicated that heat shock treatment affected the synthesis and transformation of amino acids during ovule expansion.The transcriptome data suggested gene expressions of ovule growth were significantly changed by heat-specific influences.The results provide new information on the complex relationship between in vitro gynogenesis and temperature.This provides a basis for further study of the mechanism of heat shock affecting the expansion of watermelon ovule.

Differentiating between fertilized and unfertilized eggs prior to incubation based on oxygen flux measurement

One unresolved challenge in the egg industry is how to efficiently and non-invasively detect unfertilized eggs prior to incubation.This detection ability would not only significantly improve hatching rates and reduce costs but also conserve incubator space and prevent poor-quality embryos from contributing to the spread of infections.This study demonstrates a procedure for distinguishing between fertilized and unfertilized eggs prior to incubation by studying the respiratory differences between fertilized and unfertilized eggs using the Non-invasive Micro-test Technique(NMT).A customized micro-testing examination platform,NMT Egg Testing System(NMT-ETS)was constructed for the real-time monitoring of the intensity and rate of oxygen exchange between the egg and its external environment.The results from this study revealed that at room temperature,there is a significant difference in gas exchange rates between fertilized and unfertilized eggs.The results indicate that the oxygen flux of fertilized eggs exceed 20 pmol/(cm^(2)·s),whereas unfertilized eggs show a much lower oxygen flux.Based on the results,the NMT method can be used to effectively distinguish between fertilized and unfertilized chicken eggs.