Sexual Reproduction Systems in Land Plants
Sexual reproduction is a critical process to enhance genetic diversity and thereby promotes evolution of organisms. The most important step in sexual reproduction is the formation of gametes with opposite mating types (sexes), which usually show distinct morphology and motility (termed oogamy). In evolution, well recogized morphological distinction between male and female bodies is a secondary diversification to facilitate gamete formation and mating.
Arabidopsis thaliana, male and female gametophytes are reduced to three-celled pollens and seven-celled embryo sacs, respectively. After fertilization, zygotes divide to produce multicellular diploid bodies called the sporophytes. Though this type of diploid-dominant life cycle is predominant, it limits the use of angiosperm models to investigate gamete differentiation in plants.
Marchantia polymorpha is a superior model system, due to its well assembled genome sequnece with less redundant repertories of transcription factor genes. Availability of the asexual propagation route via gemma formation allows maintenance of gamete-deficient mutants and their phenotypic analyses.
A. thaliana, one RKD genes is expressed in embryos and required for their development. Although, many other RKD genes are expressed in egg cells, their roles in egg differentiation was difficult to prove in A. thaliana. We identified a single RKD gene in the M. polymorpha genome and found that its knock-out mutants were speficically affected in egg and sperm maturation. Thus, by using M. polymorpha, it became clear that the evolutionary origin of RKD functions is to regulate gamete differentiation.
M. polymorpha egg cells. Mutations in this gene resulted in female plants having male morphologies. In A. thaliana, homologous MYB genes were known to promote embryo sac differentiation. Because M. polymorpha female bodies and A. thaliana embryo sacs are evolutionarily equivalent, our study revealed that these MYB transcription factors are evolutionarily conserved regulators of female sexual differentiation in gametophytes.
The two studies mentioned above demonstrate the power of comparative molecular genetic studies of M. polymorpha and A thaliana in deciphering the mechanisms and evolution of sexual reproduction in land plants. We are currently investigating genes regulated by these transcription factors to understand genetic networks controlling sexual differentiation and their evolution in land plants.
Green plants Power Point drawing (2.0MB Free to download)
- In each slide, left side is a vector drawing, while right side is a derived image-paste.
- These illustrations are free to use for those who think themselves plant biologists.
- You are free to modify the illustrations, but please consider making the derivatives open to the community.
- Use of the images for any immoral purposes is strictly forbidden.
- Please report any critical errors in morphology (Ignore trivial ones).