Single-cell RNA sequencing (scRNA-seq) has emerged as a revolutionary technique in plant research, enabling researchers to delve into the complex world of gene expression at the single-cell level. As an industry-leading plant technology company, Lifeasible provides professional single-cell solutions for plant research.

Application of scRNA-seq in Plant Research

The advent of scRNA-seq has opened the door to single-cell multi-omics studies in plants, successfully applied to several systems, including leaves, choroidal systems, stem tips, maize meristem cells, and regenerating healing tissues, highlighting heterogeneity and developmental dynamics. With this disruptive technology, it is now possible to tap into heterogeneity between tissue types and within cells like never before. This allows for more rapid identification of rare and novel cell types, simultaneous characterization of multiple distinct cell types and states, a more accurate and integrated understanding of their role in life processes, etc. In recent years, with progressive breakthroughs in plant protoplasm preparation and other challenges, plant single-cell sequencing has become increasingly popular, offering unprecedented perspectives on plant development and breeding.

Fig.1. The applications of single-cell sequencing in plant biology. (Wen L, et al., 2022)

What We Offer

Applying scRNA-seq to plants can reveal cellular heterogeneity, identify rare and novel cell types, and provide a comprehensive understanding of the complex molecular processes involved in plant development, physiology, and responses to environmental stimuli. Lifeasible is a pioneer in plant biotechnology, providing customized scRNA-seq solutions for plant research to advance plant development and breeding.

Our single-cell RNA sequencing (scRNA-seq) solutions for plant research include, but are not limited to:

• Single-cell Solutions for Building Plant Cell Atlas
  We provide single-cell transcriptome sequencing to build plant cell atlases, helping clients gain insight into the composition of cell types in plant tissues and obtain information about each cell's unique transcript to identify cell identity and function.
• Single-cell Solutions for Identifying Plant Rare Cell Types
  By mapping plant single-cell transcripts, we can help you identify rare cell types in plant tissues and further explore their essential functions in plant development and differentiation.
• Single-cell Solutions for Mining New Plant Marker Genes
  During single-cell transcriptome data analysis, we can identify the characteristic genes of a cell subpopulation through differential analysis and then combine them with Marker genes to identify cell types.
• Single-cell Solutions for Plant Cell Developmental Dynamics
  Our experts can map the developmental differentiation trajectory among plant cells to reshape the cellular process over time and can dig deeper into the cell type changes as the cell status changes, and further analyze the plant cell differentiation pathway to understand the dynamic developmental process of plant cells.
• Single-cell Solutions for Plant Gene Regulatory Networks Analysis
  We start with the analysis of transcription factor regulatory networks of different cell types to help our customers study the regulatory mechanisms of plant development.
• Single-cell Solutions for Plant Abiotic Stress Response
  Abiotic stress is an important environmental influence on plant growth and development. Through single-cell transcriptome sequencing, we help you to explore the changes in the composition of cell types in plant tissues under different treatment conditions and thus resolve the mechanisms of abiotic stress response.
• Single-cell Solutions for Plant Conservative and Differential Analysis
  Based on the single-cell level, we can map the single-cell transcriptome between different subspecies of the same species for comparison among other subspecies to further reveal the differences and conservativeness of the differentiation trajectories of other subspecies during development.
• Single-cell Solutions for Plant Important Transcription Factors Function
  In plant single-cell sequencing, we can perform mutant studies of transcription factors with known functions based on constructed gene networks and thus resolve the impact of loss of function of the transcription factor on plant tissue composition and cellular properties and differentiation.

Lifeasible provides state-of-the-art scRNA-seq solutions for plant research. With our expertise in experimental techniques, custom data analysis, and targeted research solutions, we can unlock the full potential of scRNA-seq to make significant progress in unlocking the mysteries of plant biology. If you are interested in our services or have some questions, please feel free to contact us or make an online inquiry.

Reference

1. Wen L, Li G, Huang T, et al. Single cell technologies: From research to application[J]. The Innovation, 2022: 100342.

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For research use only, not intended for any clinical use.

Related Services

• Plant Single-cell RNA Sequencing (scRNA-seq) Analysis
• Plant Single-cell RNA Sequencing (scRNA-seq)
• Plant Single-cell Assay for Transposase-Accessible Chromatin Sequencing (scATAC-seq)
• Plant Single-cell Assay for Transposase-Accessible Chromatin Sequencing (scATAC-seq) Analysis