Bioinformatics Statistics
Transform Complex Data into Insights with Expert Bioinformatics
Genomic Data
Analysis Services
We offer integrated genomics analysis services to meet all your genetic data needs.
From whole genome analyses to focused studies, we provide advanced analytics for both research and clinical applications.
Our Whole Genome Sequencing Analysis lets you explore your entire genetic makeup. It doesn’t just look at DNA sequences but analyzes the whole genome to find genetic differences.
Our Exome Sequencing Analysis focuses on the parts of your DNA most likely to cause diseases. It efficiently finds genetic changes that can lead to specific disorders, helping doctors and researchers create better treatments
SNPs are tiny changes in the DNA that could affect traits or risk for diseases. Our SNP Analysis finds these important changes across the genome, providing valuable data for studying genetic differences, populations, and future medical treatments tailored to individuals.
Structural variation refers to changes in DNA where large segments are duplicated or deleted. These changes can greatly affect gene activity and increase the risk of diseases. Our CNV Analysis identifies these large genomic changes, helping to spot potential risks for diseases or genetic conditions.
Our GWAS service finds links between genetic variations and complex traits or diseases by analyzing data from large groups of people. This includes conditions like cancer and heart disease, as well as many other health issues, helping to identify the key genetic factors behind these traits.
Explore the evolutionary connections between species or individuals with our Comparative Genomics service. We compare genome sequences to identify similarities and differences, offering insights into evolution, species development, and genetic diversity.
Find the evolutionary relationship between species or individuals using our service, Comparative Genomics. Within this service, we carry out an in-depth genome sequence comparison to uncover shared and divergent features that will provide insights into evolutionary biology, speciation, and genetic variation.
Our GWAS service finds links between genetic changes and complex traits or diseases by analyzing data from large groups of people. This includes conditions like cancer and heart disease, as well as many other health issues, helping to identify the key genetic factors behind these traits.
Transcriptomic Data
Analysis Services
Understanding gene expression is key to uncovering the complexities of diseases, cellular functions, and biological responses.
Our Transcriptomic Data Analysis provides powerful tools to explore and quantify gene activity under different conditions, offering deeper insights into the transcriptome’s functional landscape.
RNA-Seq is the leading method for studying gene activity. Our RNA-Seq Data Analysis accurately measures and compares gene expression between different conditions. We help identify genes with changes in expression and provide insights into disease mechanisms, drug responses, and development processes.
This allows you to examine gene expression at the single-cell level, offering a deeper look into cell differences. Our Single-Cell RNA-Seq Analysis service helps identify rare cell types using unique gene profiles from individual cells and lets you explore gene regulation and cellular diversity.
Microarray technology remains an affordable option for large-scale gene expression analysis. Our Microarray Data Analysis service provides accurate results by identifying genes with different expression levels in large datasets, helping you explore gene activity across various samples, conditions, or time points.
We offer more than just raw expression data by providing GO and Pathway Enrichment Analysis for deeper functional insights. Our service reveals the biological roles of your gene sets in pathways, processes, and functions, giving you a clearer understanding of their significance.
Our GSEA service helps identify important pathways and gene sets in your transcriptomics data. By studying cancer pathways or immune responses, we can pinpoint key molecular pathways driving the expression patterns in your data.
Gene expression involves not just the amount but also the different forms of transcripts. Our Isoform Expression and Alternative Splicing Analysis service identifies various transcript forms, particularly splicing events, offering insights into how alternative splicing affects gene function, regulation, and phenotypic diversity.
MicroRNAs (miRNAs) are known to be powerful regulators of gene expression. Our miRNA Target Prediction service is key to identifying potential interactions between miRNAs and their targets, offering insights into post-transcriptional gene regulation. This service helps understand gene silencing mechanisms, regulatory networks, and the role of disease-related miRNAs.
Proteomics Data
Analysis Service
Proteins are the workhorses of cells, driving essential biological processes. Our protein identification and quantification services use advanced tools to explore the complexity of the proteome. We provide insights into protein function, interaction, regulation, and dynamics, including modifications and structural features.
Our comprehensive proteomics solutions support better research outcomes.
Our Protein Identification and Quantification service uses advanced mass spectrometry to identify and measure proteins in complex biological samples. Whether profiling protein levels across conditions or discovering new proteins, we offer precise and reliable quantification to support proteomics research.
PTMs are crucial for regulating protein activity, stability, and function. Our PTM Analysis service identifies key modifications like phosphorylation, ubiquitination, acetylation, and methylation. By studying these modifications, we help you understand how proteins are regulated and how they affect cellular processes.
Understanding a protein’s structure is essential to studying its function, interaction, and stability. Our Protein Structure Prediction and Homology Modeling service uses computational tools to predict a protein’s 3D structure based on similarities to known structures in its sequence. This service is valuable for exploring protein function, drug design, and evolutionary studies.
Proteins often work together, interacting in complex networks to control cellular processes. Our Protein-Protein Interaction (PPI) Networks service maps and visualizes these interactions, helping you understand how proteins function together in a cell. This analysis is crucial for understanding cellular pathways, disease mechanisms, and identifying therapeutic targets.
Metabolomic and metagenomic data
analysis services
Our Metabolomic and Metagenomic Data Analysis service offers in-depth analysis of metabolic pathways and microbial communities. We provide critical insights into biological processes, health, and disease. Using advanced analytical methods, we help researchers understand how metabolites interact with microbes in different environments.
Our metabolomic profiling service identifies small-molecule metabolites in biological samples, offering insights into cellular processes, metabolic pathways, and disease mechanisms. This service helps you understand the role of metabolites in biological systems, track metabolic changes due to environmental factors or treatments, and identify disease biomarkers.
Explore microbial diversity with our 16S rRNA Sequencing service. This service accurately identifies and quantifies bacterial species in any sample by targeting the gene for 16S ribosomal RNA. It enables the study of microbial communities impacted by environmental changes, such as those in the human gut, soil, and aquatic ecosystems. Understanding microbial composition helps explain health and disease.
Shotgun Metagenomic Sequencing provides a comprehensive view of microbial communities. Using high-throughput sequencing, all microbial genomes in a sample are profiled, allowing complete analysis of microbial diversity, species abundance, and genetic potential. This service is essential for studying complex ecosystems, antibiotic resistance, and functional diversity in microbial populations.
Go beyond basic identification with our Metagenomic Functional Profiling service, which focuses on the functional capabilities of microbial communities. By analyzing microbial genes and metabolic pathways, this service helps you understand the roles microbes play in diverse environments and their impact on host health and environmental processes.
Structural
Bioinformatics Services
Structural bioinformatics helps uncover 3D structures of biomolecules and their interactions. Our services provide powerful computational tools to model, simulate, and analyze the structural properties of proteins, ligands, and complexes. This enables researchers to explore biological mechanisms at the molecular level.
Our Molecular Docking service simulates how proteins interact with small molecules, called ligands, and predicts their binding affinities and interaction sites. This is crucial in drug discovery and design, as it helps researchers identify potential drug candidates based on how molecules bind to target proteins.
With our Molecular Dynamics (MD) Simulations, explore how proteins change over time. By studying the movement of atoms and molecules, you can understand protein folding, conformational changes, and interactions with other molecules in different environments. MD simulations are key for studying protein flexibility and stability in various conditions.
Shotgun Metagenomic Sequencing provides a comprehensive view of microbial communities. By using high-throughput sequencing, all microbial genomes in a sample are profiled, allowing complete analysis of microbial diversity, species abundance, and genetic potential. This service is essential for understanding complex ecosystems, antibiotic resistance, and functional diversity within microbial populations.
Systems
Biology Services
Structural bioinformatics helps uncover 3D structures of biomolecules and their interactions. Our services provide powerful computational tools to model, simulate, and analyze the structural properties of proteins, ligands, and complexes. This enables researchers to explore biological mechanisms at the molecular level
In our Pathway and Network Analysis, we annotate genes or proteins with known biological pathways and interaction networks. This analysis helps identify key components in disease-related, drug response, or cellular function pathways, offering insights into how different biological processes are interconnected.
With our Gene Regulatory Network Analysis service, you can study the regulatory relationships between genes. We analyze gene expression data in the context of these interactions, providing valuable insights into how genes control biological processes. This allows us to identify key regulators of pathways related to development, disease, and environmental responses.
We provide a platform for powerful visualization and analysis of complex biological networks, such as protein-protein interactions, metabolic pathways, and gene regulatory networks. By exploring the structure, connectivity, and dynamics of biological systems with intuitive visualizations, generating hypotheses and communicating findings has become much easier.
Ready to bring your vision to life? Let’s schedule a Free Consultation and explore how we can make your project a success!