The Diversity of Plant Sex Chromosomes Highlighted through Advances in Genome Sequencing

Carey, Sarah B.; Yu, Qingyi; Harkess, Alex

doi:10.3390/genes12030381

Cited by 15 publications

(11 citation statements)

References 215 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The most similar is Populus alba with ZW sex determination and a 69 kb SDR with 12 W-specific genes ( Yang et al 2021 ), compared to 31 kb and 5 W-specific genes in F. chiloensis . The ability to obtain high-quality chromosome-scale genome assemblies is poised to greatly accelerate the characterization of sex chromosomes ( Carey et al 2021 ), and will clarify whether the features of SDR translocation observed here are general phenomena for plants. Acquisition of haplotype-resolved assemblies, even partially phased such as in this study, will allow a better understanding of autosomal haplotype divergence (exacerbated by repeat sequences), and how this shapes the origin of sex chromosomes.…”

Section: Resultsmentioning

confidence: 94%

Chromosome-scale assembly with a phased sex-determining region resolves features of early Z and W chromosome differentiation in a wild octoploid strawberry

Cauret

Mortimer

Roberti

et al. 2022

G3 Genes|Genomes|Genetics

View full text Add to dashboard Cite

When sex chromosomes stop recombining, they start to accumulate differences. The sex-limited chromosome (Y or W) especially is expected to degenerate via the loss of nucleotide sequence and the accumulation of repetitive sequences. However, how early signs of degeneration can be detected in a new sex chromosome is still unclear. The sex determining region (SDR) of the octoploid strawberries is young, small, and dynamic. Using PacBio HiFi reads, we obtained a chromosome scale assembly of a female (ZW) Fragaria chiloensis plant carrying the youngest and largest of the known SDR on the W in strawberries. We fully characterized the previously incomplete SDR, confirming its gene content, genomic location and evolutionary history. Resolution of gaps in the previous characterization of the SDR added 10 kbp of sequence including a non-canonical LTR-retrotransposon; whereas the Z sequence revealed a Harbinger transposable element adjoining the SDR insertion site. Limited genetic differentiation of the sex chromosomes coupled with structural variation may indicate an early stage of W degeneration. The sex chromosomes have a similar percentage of repeats but differ in their repeat distribution. Differences in the pattern of repeats (transposable element polymorphism) apparently precede sex chromosome differentiation, thus potentially contributing to recombination cessation as opposed to being a consequence of it.

show abstract

Section: Resultsmentioning

confidence: 94%

Chromosome-scale assembly with a phased sex-determining region resolves features of early Z and W chromosome differentiation in a wild octoploid strawberry

Cauret

Mortimer

Roberti

et al. 2022

G3 Genes|Genomes|Genetics

View full text Add to dashboard Cite

show abstract

“…The rapid development of high-throughput sequencing techniques has enabled a full flourish of plant genomics. Sexdetermining genes have been identified based on combined genomic and experimental approaches in certain dioecious plants with both Type I and II flowers (Carey et al, 2021;Renner and Müller, 2022). Taken together, these findings make it possible for us to elucidate the mechanism of sex determination in dioecious plants.…”

Section: Introductionmentioning

confidence: 93%

A convergent mechanism of sex determination in dioecious plants: Distinct sex-determining genes display converged regulation on floral B-class genes

et al. 2022

View full text Add to dashboard Cite

Sex determination in dioecious plants has been broadly and progressively studied with the blooming of genome sequencing and editing techniques. This provides us with a great opportunity to explore the evolution and genetic mechanisms underlining the sex-determining system in dioecious plants. In this study, comprehensively reviewing advances in sex-chromosomes, sex-determining genes, and floral MADS-box genes in dioecious plants, we proposed a convergent model that governs plant dioecy across divergent species using a cascade regulation pathway connecting sex-determining genes and MADS-box genes e.g., B-class genes. We believe that this convergent mechanism of sex determination in dioecious plants will shed light on our understanding of gene regulation and evolution of plant dioecy. Perspectives concerning the evolutionary pathway of plant dioecy are also suggested.

show abstract

“…Contrastingly, a few systems have strong evidence of a single gene initiating female versus male development, as shown in persimmons and poplars [ 103 , 104 ]. Complementary to the many independent evolutions of dioecy, in each of these species examined, different genes have been identified as sex-determining and they function at varying parts of floral development (see reviews in [ 43 , 105 ]). Studies of additional independent origins of sex chromosomes in plants may indeed identify more novel genes involved in carpel and stamen pathways.…”

Section: The Prismatic Sex Chromosomes Of Plantsmentioning

confidence: 99%

The contributions of Nettie Stevens to the field of sex chromosome biology

Carey

Aközbek

Harkess

2022

Phil. Trans. R. Soc. B

Self Cite

View full text Add to dashboard Cite

The early 1900s delivered many foundational discoveries in genetics, including re-discovery of Mendel's research and the chromosomal theory of inheritance. Following these insights, many focused their research on whether the development of separate sexes had a chromosomal basis or if instead it was caused by environmental factors. It is Dr Nettie M. Stevens' Studies in spermatogenesis (1905) that provided the unequivocal evidence that the inheritance of the Y chromosome initiated male development in mealworms. This result established that sex is indeed a Mendelian trait with a genetic basis and that the sex chromosomes play a critical role. In Part II of Studies in spermatogenesis (1906), an XY pair was identified in dozens of additional species, further validating the function of sex chromosomes. Since this formative work, a wealth of studies in animals and plants have examined the genetic basis of sex. The goal of this review is to shine a light again on Stevens’ Studies in spermatogenesis and the lasting impact of this work. We additionally focus on key findings in plant systems over the last century and open questions that are best answered, as in Stevens' work, by synthesizing across many systems. This article is part of the theme issue ‘Sex determination and sex chromosome evolution in land plants’.

show abstract

The Diversity of Plant Sex Chromosomes Highlighted through Advances in Genome Sequencing

Cited by 15 publications

References 215 publications

Chromosome-scale assembly with a phased sex-determining region resolves features of early Z and W chromosome differentiation in a wild octoploid strawberry

Chromosome-scale assembly with a phased sex-determining region resolves features of early Z and W chromosome differentiation in a wild octoploid strawberry

A convergent mechanism of sex determination in dioecious plants: Distinct sex-determining genes display converged regulation on floral B-class genes

The contributions of Nettie Stevens to the field of sex chromosome biology

Contact Info

Product

Resources

About