Our Services
Human Whole Genome Sequencing
A comprehensive technique that analyzes the entire genome to reveal genetic variations and disease risks, with applications in clinical care, research, and public health for mutation detection, personalized treatment, disease investigation, and population health monitoring.
Sample Requirements & Output
- · Raw (e.g.: blood, saliva, buccal swap) = Minimum 2 mL
- · gDNA = Minimum 40ng/μL (Qubit) in 100 μL volume
- ▸ Output: Quality check summary, Aligned .bam files (GRCh38 or T2T-CHM13, IGV-ready), Variant calling (SNVs, structural variants, and CNVs)
Animal Whole Genome Sequencing
Decodes the full genome of animals, offering deep insights into genetic variation, evolution, adaptation, and inherited traits, with applications in veterinary science, evolutionary biology, selective breeding, conservation, and the development of transgenic and disease models.
Sample Requirements & Output
- · Raw = Animal tissue, min. 100 mg
- · gDNA = Minimum 40 ng/μL (Qubit) in 100 μL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq/.bam files
Plant Whole Genome Sequencing
Decodes the complete genetic makeup of plants, providing precise insights into genetics, evolution, trait inheritance, and adaptation, with applications in breeding, research, agriculture, and conservation for gene discovery, precision breeding, genetically-modified crop development, and biodiversity assessment.
Sample Requirements & Output
- · Raw = Plant tissue, min. 1 gram
- · gDNA = Minimum 40 ng/μL (Qubit) in 100 μL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq/.bam files
Whole Bacterial Genome Sequencing
A comprehensive genetic analysis of bacteria that provides precise insights into evolution, resistance, pathogenicity, and diversity, with applications in clinical care, research, public health, and industry for strain identification, outbreak tracking, resistance monitoring, and microbial engineering.
Sample Requirements & Output
- · Raw = Bacterial liquid culture (min. 50 mL overnight) or bacteria pellet
- · DNA = Minimum 20 ng/μL (Qubit) in 30 μL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq files, Genome analysis (Genome Assembly, Gene Annotation, AMR Prediction, Plasmid Prediction, Taxonomic identification)
Low-Pass Whole Genome Sequencing
A cost-effective method that sequences the genome at low coverage with imputation, enabling large-scale variant analysis for population studies, disease risk assessment, or applications in clinical genetics and biotech.
Sample Requirements & Output
- · Raw = Based on the sample
- · DNA = Minimum 40 ng/μL (Qubit) in 30 μL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq files, For human samples: Aligned .bam files (GRCh38 or T2T-CHM13, IGV-ready), Variant calling (SNVs, structural variants, and CNVs)
Whole Plasmid Sequencing
A high-resolution method for sequencing entire plasmids to detect mutations and structural variations, used across research, biotech, pharma, and clinical settings for construct validation, therapeutic monitoring, and support of gene therapy, vaccines, and synthetic biology.
Sample Requirements & Output
- · Plasmid Isolate = Minimum 40 ng/μL (Qubit) in 30 μL volume
- ▸ Output: Plasmid analysis (Assembly, Annotation plot and feature table, Dot plot)
Metagenomic – Basic Taxonomical Profiling
A high-throughput method analyzing total genetic material from a sample without culturing, revealing up to species diversity, for species profiling related in health, agriculture, microbiology, and industry.
Sample Requirements & Output
- · Raw (e.g.: soil) = Minimum 1 × 15 mL conical tube
- ▸ Output: Quality check summary, Raw basecalled .fastq/.bam files (± 2 Gb), Taxonomic classification and diversity (Lineages, Barplot, Sunburst, Alpha diversity indices and rarefaction curve, Abundance table)
Metagenomic – Expanded Taxonomical Profiling
A deeper-yield sequencing approach for comprehensive analysis of organism communities within a sample, providing insight into gene function profiling & organism interaction. Applicable across wide range topics including in health, agriculture, and industry.
Sample Requirements & Output
- · Raw (e.g.: soil) = Minimum 1 × 15 mL conical tube
- ▸ Output: Quality check summary, Raw basecalled .fastq/.bam files (± 5 Gb), Taxonomic classification and diversity (Lineages, Barplot, Sunburst, Alpha diversity indices and rarefaction curve, Abundance table)
Short Amplicon Sequencing
Golden standard sequencing method for detecting sequence of DNA regions between 100 - 1000 bp through Sanger Sequencing related to gene detection, mutation or even identifying species.
Sample Requirements & Output
- · Raw = Single species (tissue or organism culture)
- · DNA = Single-band amplicon from markers with ≥ 20 ng/µL (Qubit) in ≥ 30 µL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq files, Consensus sequence (FASTA), Top 10 BLAST NCBI Result
Long Amplicon Sequencing
A targeted, high-resolution method for analyzing DNA regions longer than 1500 bp, with applications in diagnostics, microbial profiling, evolutionary studies, and forensics.
Sample Requirements & Output
- · Raw = Single species (tissue or organism culture)
- · DNA = Single-band amplicon from markers with ≥ 20 ng/µL (Qubit) in ≥ 30 µL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq files, Consensus sequence (FASTA), Top 10 BLAST NCBI Result
Multiplex Amplicon Sequencing
An efficient sequencing approach for simultaneously analyzing multiple gene targets in a single run enabling multi-marker diagnostic, mutation analysis & species identification after alignment with its reference.
Sample Requirements & Output
- · DNA = Multi single-band amplicon from markers with ≥ 30 ng/µL (Qubit) in ≥ 30 µL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq files, Consensus sequence (FASTA) of the gene based on alignment
Metabarcoding (16s, 18s, ITS, COI, MiFish, or custom marker gene)
A high-throughput method that targets genetic markers (e.g., 16S, 18S, ITS) to identify and classify species within complex samples, with applications in microbiome profiling, ecological monitoring, pathogen detection, food authentication, and biosecurity.
Sample Requirements & Output
- · Raw = Minimum 1 × 15 mL conical tube
- · DNA = Single-band amplicon from markers (16S/18S/ITS) with ≥ 30 ng/µL (Qubit) in ≥ 30µL volume
- ▸ Output: Quality check summary, Raw basecalled .fastq/.bam (± 5 Gb) files, Taxonomic classification and diversity (Lineages, Barplot, Sunburst, Krona graphs, Alpha diversity indices and rarefaction curve, Abundance table)
Transcriptomics through cDNA Sequencing
Decodes complementary DNA from RNA, enabling stable and targeted analysis of coding regions for gene expression, alternative splicing, and transcriptome profiling in disease research, single-cell studies, and functional genomics.
Sample Requirements & Output
- · RNA = Minimum concentration of 100 ng/µL (Qubit) in ≥ 30 µL volume
- · Experimental design for DEGs: Atleast 6 samples - 3 control and 3 treatment replicates
- ▸ Output = Quality check summary, Assembled (and annotated) transcriptome, Aligned .bam files ready to be visualized with IGV Differential expression analysis
DNA & RNA Extraction
A pre-sequencing service for extracting high-quality genetic material from various sample types ranging from specific tissue or organism culture to environmental samples providing reliable input for downstream molecular and sequencing analysis.
DNA Amplification (PCR)
A gene-targeting method that uses amplification principles with specific primers related to the target gene, enabling sequencing optimization based on the research objectives and questions to be addressed.
Gel Electrophoresis
A widely used fragment analysis technique to confirm the presence of the target gene prior to sequencing based on fragment length. It also serves as an initial sample quality check before further analysis using an advanced fragment analyzer.
Nucleic Acid Quantification
A primary quality control method for sequencing that accurately quantifies nucleic acid concentration prior to sequencing, establishing the appropriate input amount to avoid overloading or underloading
DNA/RNA Integrity Analysis
An essential quality parameter for Whole Genome Sequencing that complements nucleic acid quantification by evaluating nucleic acid integrity and fragmentation status. This analysis helps improve sequencing read efficiency, especially for long-read NGS applications.
Post Sequencing Add-Ons Analysis
A customizable sequencing data analysis service performed in the field of bioinformatics beyond primary analysis to address specific research needs. This service is applicable to various sequencing approaches and is evaluated based on the complexity of the analysis required.