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Drylab: AI for biomedical research and
the world’s leading life science companies.

Drylab: AI for biomedical research and
the world’s leading life science companies.

Built by Scientists from Nanyang Technology University, Singapore.


Backed by Google; AWS ; NTUitive

Introduction

Drylab is a domain-specific AI for biomedical research.

We built Drylab to make powerful analysis accessible & reproducible to everyone—from no-code researchers to advanced bioinformaticians.

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Use Cases

Drylab is on a mission to eliminate every bottleneck on the dry lab side of biomedical and natural science research—one challenge at a time.

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Field-proven Use Cases

All Use Cases

01

Data Analysis

2-9 minutes

Use natural language to delegate complex bio data tasks to your AI assistant — with coding being an option.

1

/

0

Single-cell RNA-seq analysis

Run Time: 7 minutes

Automates key steps of scRNA-seq data processing: quality control, normalization, clustering, marker gene identification, cell type annotation and more with customizable code scripts.

RNA-Seq and Differential Expression analysis

Run Time: 7 minutes

Upload count matrices to perform automated DE testing across experimental conditions, generating gene lists, plotting for easy interpretation.

Statistical analysis

Run Time: 3-7 minutes

Accepts raw, uncleaned laboratory or clinical data, automatically handles cleaning, suggests appropriate tests and delivers clear results with plots and reports.

02

Deep Search

2-9 minutes

Find trusted answers to your most complex biological research questions—across every biological domain.

1

/

0

Protocol Design

Run Time: 7 minutes

Quickly find and adapt methods from peer-reviewed literature or drop in your own protocol file to customize it for your available resources and experimental needs.

Field-proven Use Cases

All Use Cases

01

Data Analysis

2-9 minutes

Use natural language to delegate complex bio data tasks to your AI assistant — with coding being an option.

Single-cell RNA-seq analysis

Run Time: 7 minutes

Automates key steps of scRNA-seq data processing: quality control, normalization, clustering, marker gene identification, cell type annotation and more with customizable code scripts.

RNA-Seq and Differential Expression analysis

Run Time: 7 minutes

Upload count matrices to perform automated DE testing across experimental conditions, generating gene lists, plotting for easy interpretation.

Statistical analysis

Run Time: 3-7 minutes

Accepts raw, uncleaned laboratory or clinical data, automatically handles cleaning, suggests appropriate tests and delivers clear results with plots and reports.

1

/

0

02

Deep Research

2-9 minutes

Find trusted answers to your most complex biological research questions—across every biological domain.

Protocol Design

Run Time: 7 minutes

Quickly find and adapt methods from peer-reviewed literature or drop in your own protocol file to customize it for your available resources and experimental needs.

1

/

0

Field-proven Use Cases

All Use Cases

01

Data Analysis

2-9 minutes

Use natural language to delegate complex bio data tasks to your AI assistant — with coding being an option.

1

/

0

Single-cell RNA-seq analysis

Run Time: 7 minutes

Automates key steps of scRNA-seq data processing: quality control, normalization, clustering, marker gene identification, cell type annotation and more with customizable code scripts.

RNA-Seq and Differential Expression analysis

Run Time: 7 minutes

Upload count matrices to perform automated DE testing across experimental conditions, generating gene lists, plotting for easy interpretation.

Statistical analysis

Run Time: 3-7 minutes

Accepts raw, uncleaned laboratory or clinical data, automatically handles cleaning, suggests appropriate tests and delivers clear results with plots and reports.

02

Deep Search

2-9 minutes

Find trusted answers to your most complex biological research questions—across every biological domain.

1

/

0

Protocol Design

Run Time: 7 minutes

Quickly find and adapt methods from peer-reviewed literature or drop in your own protocol file to customize it for your available resources and experimental needs.

Benchmark

Bioinformatics Analysis Performance

Protocol Design with Deep Research Performance

19% higher

17% higher

30%

Claude-4-sonnet

ChatGPT o4-mini

Drylab In-house Model

30

20

10

0

Graph (1) | Drylab achieved 30% accuracy— significantly higher than the 17% and 19% of ChatGPT o4-mini
and Anthropic’s Claude 4 sonnet on BixBench.

Bioinformatics Analysis Performance

Protocol Design with Deep Research Performance

37%

higher

56%

Google Gemini

Drylab In-house Model

60

40

20

0

Graph (2) | Drylab reached 56% step accuracy, outperforming Google Gemini’s 37% on BioProBench.

Bioinformatics Analysis Performance

Protocol Design with Deep Research Performance

37% higher

56%

Google Gemini

Drylab In-house Model

60

40

20

0

Graph (2) | Drylab reached 56% step accuracy, outperforming Google Gemini’s 37% on BioProBench.

Discussion

1.

Why 'Drylab'?

In science, a dry lab refers to the part of research that happens outside the wet bench-like analyzing data, designing experiments, and running simulations. It's half of the scientific workflow, and just as demanding.

At Drylab, we believe the dry side of science shouldn't be tedious. Our mission is to make it seamless—so scientists spend less time on manual work and more on discoveries.

2.

Who is Drylab for?

3.

What makes Drylab AI different from general AI tools like ChatGPT?

4.

How can I ensure that my lab's internal data and information remain secure?

5.

What kind of datasets can Drylab run?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

6.

What tools can I integrate with Drylab?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

7.

What is the Drylab AI Early Access Program?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

8.

How can I join Early Access Program?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

1.

Why 'Drylab'?

In science, a dry lab refers to the part of research that happens outside the wet bench-like analyzing data, designing experiments, and running simulations. It's half of the scientific workflow, and just as demanding.

At Drylab, we believe the dry side of science shouldn't be tedious. Our mission is to make it seamless—so scientists spend less time on manual work and more on discoveries.

2.

Who is Drylab for?

3.

What makes Drylab AI different from general AI tools like ChatGPT?

4.

How can I ensure that my lab's internal data and information remain secure?

5.

What kind of datasets can Drylab run?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

6.

What tools can I integrate with Drylab?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

7.

What is the Drylab AI Early Access Program?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

8.

How can I join Early Access Program?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

1.

Why 'Drylab'?

In science, a dry lab refers to the part of research that happens outside the wet bench-like analyzing data, designing experiments, and running simulations. It's half of the scientific workflow, and just as demanding.

At Drylab, we believe the dry side of science shouldn't be tedious. Our mission is to make it seamless—so scientists spend less time on manual work and more on discoveries.

2.

Who is Drylab for?

3.

What makes Drylab AI different from general AI tools like ChatGPT?

4.

How can I ensure that my lab's internal data and information remain secure?

5.

What kind of datasets can Drylab run?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

6.

What tools can I integrate with Drylab?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

7.

What is the Drylab AI Early Access Program?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.

8.

How can I join Early Access Program?

Drylab supports multimodal datasets, including—but not limited to—genomics, transcriptomics, proteomics, epigenomics, metabolomics, imaging, spatial omics, and clinical or phenotypic data.