When plants reach a certain growth stage, they begin to differentiate to form flower buds, which later flower, pollinate, fertilize, bear fruit (fruits), and form seeds. Generative growth refers to the development of flowers, fruits, and seeds, which is marked by flowering and fruiting. The conditions that favor generative growth are intense light, big temperature swings, drier soil, and less nitrogen. Plant lncRNAs are also involved in reproduction, including pollen development, flowering time, and fruit ripening.

Lifeasible, as a leading global company, is committed to helping our customers achieve effective and successful research. We provide analysis services of plant lncRNA in regulating generative growth, mainly including floral transition, development of generative organs and fruits. In addition, we deliver reliable results and reports on time to our customers worldwide.

Analysis of Plant lncRNA Regulating Floral Transition

• The floral transition is a critical developmental process in plants directly related to offspring reproduction. Floral transition is regulated by self and environmental factors. Recent studies have shown that signals such as vernalization and photoperiod can regulate the floral transition process.

• We help clients analyze the role of plant lncRNA in regulating floral transition via vernalization and photoperiod pathways. In the vernalization, we provide analysis services around plant lncRNA COOLAIR, COLDAIR, COLDWRAP, and other essential genes. In the photoperiod, our analysis services are mainly FLORE.

Analysis of Plant lncRNA Regulating Pollen and Ovule Development

• Pollen is a powdery substance produced by flowers of seed plants. It consists of pollen grains (highly reduced microgametophytes), which produce male gametes (sperm cells). Ovule is a plant structure that develops into a seed when fertilized. A small opening (the micropyle) in the integuments permits the pollen tube to enter and discharge its sperm nuclei into the embryo sac.
• We offer analysis services for plant lncRNA to regulate pollen and ovule development. During pollen formation, pollination, and fertilization, lncRNAs can act as signaling molecules in response to the induction of light and heat or as miRNA trap molecules to regulate the expression of target genes during pollen and ovule development.

Analysis of Plant lncRNA Regulating Fruit Development and Ripening

• Flower fertilization through pollen is the start of a fruit. The fruit goes through the growth stages of cell division, cell expansion, fruit maturity, and fruit ripening, then ends in fruit senescence. It is essential to estimate fruit growth, especially during maturity and ripening.
• We offer analysis services for plant lncRNA in regulating fruit development and ripening by participating in anthocyanin synthesis and DNA methylation processes. For anthocyanin synthesis, plant lncRNA regulates fruit ripening by trapping miRNAs. Apart from that, we offer a complete DNA methylation service for plant fruits.

Lifeasible is always devoted to providing high-quality and satisfactory service to our customers. If you are interested in our services or have some questions, please feel free to contact us or make an online inquiry.

Reference

1. Wang X, et al. (2023). "Research progress on the roles of lncRNAs in plant development and stress responses." Front Plant Sci. 14, 1138901.

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