Services
- Yeast Hybrid Services
- Yeast One-Hybrid (Y1H) System Service
- Yeast One-Hybrid (Y1H) Library Construction Service
- Yeast One-Hybrid (Y1H) Library Screening Service
- Prokaryotic Yeast One-Hybrid (Y1H) Service
- Genomic Yeast One-Hybrid (Y1H) Service
- Yeast One-Hybrid (Y1H) Point-to-Point Verification Service
- Yeast Library Construction Service for Transcription Factors
- Yeast Library Screening Service for Transcription Factors
- Transcription Factor Self-Activation Verification Service
- Yeast Two-Hybrid (Y2H) System Service
- Nuclear System Y2H Library Construction Service with Invitrogen Gateway Method
- Nuclear System Y2H Library Construction Service with Clontech-SMART Method
- Membrane System Y2H Library Construction Service with Invitrogen-Gateway Method
- Membrane System Y2H Library Construction Service with Clontech-SMART Method
- Reverse Yeast Two-Hybrid (rY2H) Library Construction Service
- Yeast Two-Hybrid (Y2H) Library Screening Service
- Nuclear System Yeast Two-Hybrid (Y2H) Library Screening Service
- Membrane System Yeast Two-Hybrid (Y2H) Library Screening Service
- Nuclear System Yeast Two-Hybrid (Y2H) Verification Service
- Membrane System Yeast Two-Hybrid (Y2H) Verification Service
- High-throughput Yeast Two-Hybrid (Y2H) Library Screening Service
- Prokaryotic Yeast Two-Hybrid (Y2H) Service
- Genomic Yeast Two-Hybrid (Y2H) Service
- Mammalian Two-Hybrid (mY2H) Service
- Yeast One-to-One Verification Service
- Yeast Three-Hybrid (Y3H) System Service
- Yeast One-Hybrid (Y1H) System Service
- Yeast Expression System Services
- Yeast Foreign Gene Secretion and Expression Service
- Yeast Signal Peptide Tracking and Screening Service
- Yeast Stress Resistance Gene Screening Service
- Yeast Gene Knockout Service
- Yeast Surface Display Service
- Yeast Display Service of IgG Full-length Antibody
- Pichia pastoris Protein Expression Analysis
- Saccharomyces cerevisiae Protein Expression Analysis
- DNA Shuffling
- Yeast RNAi System
- Yeast Detection Services for Protein Functional Domain
- Yeast Microarray Chip Service
Online Inquiry
Yeast MeRIP- seq Analysis
In recent years, scientists have discovered a reversible RNA methylation, that is, the methylation modification on the 6th nitrogen atom of adenine in the RNA molecule (N6-methyladenosine, m6A). m6A is a common post-transcriptional modification on eukaryotic mRNA and plays an important role in gene expression regulation, mRNA splicing, RNA editing, RNA stability, controlling mRNA lifespan and degradation, and mediating circular RNA translation.
At present, the most efficient method for m6A RNA detection is MeRIP-Seq, that is, Methylated RNA immunoprecipitation with next generation sequencing. This technique enriches hypermethylated RNA fragments using N6-methyladenine antibodies, followed by high-throughput sequencing. Studying the methylated RNA regions in the whole transcriptome, so as to compare the differences in RNA methylation modification between different samples, can help solve biological problems such as cell differentiation, biological development, disease occurrence and development, and heat shock response.
Service introduction
With an advanced yeast - centric technology platform, Creative BioMart offers MeRIP-seq services for m6A RNA methylation detection in yeast. We have strict quality control on every step of our service to ensure our clients receive high - quality data.
Experimental workflow
Provided by clients
- Yeast cell number ≥ 5 × 107, yeast ≥ 200 mg (dry weight)
- RNA = 30 ~ 300 μg (OD 260 / 280 = 1.6 ~ 2.3, no RNA degradation, 28S / 18S > 1.5 or RIN > 7)
- Sample information sheet (the source, content, status and other basic information of the sample).
- Sample transportation
The sample is placed in a 1.5 mL centrifuge tube, sealed with parafilm, and shipped on dry ice.
- Sample storage
Yeast samples can be treated with TRIZOL or RNA protectant, and stored at -80°C after being frozen in liquid nitrogen.
RNA samples can be dissolved in ethanol or RNA - free ultrapure water and stored at -80°C to avoid repeated freezing and thawing.
Delivery content
Creative BioMart will provide you with detailed technical reports including:
- Experimental procedure
- Bioinformatics analysis results
- Display image of analysis results
- Raw data
Project cycle
- The operating cycle of the standard process is 45 working days.
Our advantages
- One-stop service
- Optimized experimental workflow
- Strict quality control
- Professional bioinformatics analysis
- Combining RNA methylation sequencing with other omics data
Customers only need to provide yeast samples, and we will complete the entire service process of enrichment - library preparation – sequencing - data analysis for you.
The enrichment efficiency of m6A RNA - seq is the key to determining the quality of the data, and we use validated commercial antibodies and carefully optimized experimental procedures with extremely high efficiency and specificity.
There are key quality controls throughout the experiment to ensure that customers get high-quality data.
We have a professional bioinformatics analysis team to help customers conduct comprehensive mining of experimental data.
We can integrate RNA methylation data and other omics data for bioinformatics association analysis to deeply mine the function of RNA methylation.
Service process
Why choose us?
With the advanced yeast center technology platform, Creative BioMart is committed to providing customers with a full range of yeast - related research service support and services. Please tell us your project requirements, and we will provide you with a full service from strategy design to final report. If you have any questions, please feel free to contact us.