Google ADKSDK

EBI Proteins API MCP Server

Bring Proteins
to Google ADK

Name: EBI Proteins API MCP Server
Price: 29 USD
Availability: InStock
Rating: 4.9 (1 reviews)
Author: Vinkius

Learn how to connect EBI Proteins API to Google ADK and start using 16 AI agent tools in minutes. Fully managed, enterprise secure, and ready to use without writing a single line of code.

GDPR Free for Subscribers

Get AntigenGet CoordinatesGet GenecentricGet MutagenesisGet ProteinGet Protein FeaturesGet ProteomeGet ProteomicsGet Proteomics PtmGet TaxonomyGet VariationSearch Features By TypeSearch ProteinsSearch ProteomesSearch TaxonomySearch Variation

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What is the EBI Proteins API MCP Server?

Connect to the EMBL-EBI Proteins API and access comprehensive protein biology data from one of the world's leading bioinformatics institutes.

What you can do

Protein Retrieval — Fetch complete protein entries by UniProt accession with names, organisms, gene information, sequences, and cross-references
Sequence Features — Retrieve annotated domains, binding sites, active sites, signal peptides, transmembrane regions, and disulfide bonds for any protein
Genetic Variants — Access curated variants from UniProtKB aggregated with large-scale studies including ClinVar, gnomAD, 1000 Genomes, COSMIC, and TOPMed
Proteomics & PTMs — Query mass-spectrometry peptide evidence and post-translational modifications from PeptideAtlas, MaxQB, EPD, and ProteomicsDB
Mutagenesis — Explore curated mutagenesis experiments with detailed phenotypic effect descriptions
Proteomes & Taxonomy — Search reference proteomes and navigate the taxonomy tree by ID or organism name
Genome Coordinates — Map proteins to genome positions on GRCh38/GRCh37 with Ensembl gene, transcript, and translation IDs

How it works

Subscribe to this server
No API key required — the EBI Proteins API is fully public
Start querying protein data from Claude, Cursor, or any MCP-compatible client

Your AI agent becomes a molecular biology research assistant with direct access to the entire UniProt protein knowledge base. All data is sourced from the official EMBL-EBI Proteins REST API.

Who is this for?

Molecular Biologists — retrieve protein sequences, domain architectures, and functional annotations without navigating complex web databases
Clinical Geneticists — access aggregated variant data from ClinVar, gnomAD, and COSMIC for variant interpretation and pathogenicity assessment
Structural Biologists — query sequence features, binding sites, and mutagenesis data to guide experimental design
Bioinformaticians — programmatically access proteomes, taxonomy, and genome coordinate mappings for pipeline integration

Built-in capabilities (16)

get_antigen

These are peptide regions used for antibody generation, indicating experimentally validated protein expression targets. Useful for immunology and antibody-based research. Get antigen sequences from Human Protein Atlas

get_coordinates

Returns Ensembl gene, transcript, and translation IDs along with chromosome, start/end positions, and strand information. Essential for bridging protein annotations with genomic data. Get genome coordinate mappings for a protein

get_genecentric

Shows canonical protein and related protein count for each gene. Use with a UniProt Proteome ID (e.g. UP000005640). Get the gene-centric view of a proteome

get_mutagenesis

Each entry includes the wild-type and mutant residues, position, and a description of the functional impact. Critical for understanding structure-function relationships. Get mutagenesis experiments and phenotypic effects

get_protein

Use a UniProt accession such as P12345, Q9Y6K9, or P53_HUMAN. Retrieve a full protein entry by UniProt accession

get_protein_features

Features include domains, binding sites, active sites, signal peptides, transmembrane regions, disulfide bonds, glycosylation sites, and more. Each feature has start/end positions and evidence counts. Get sequence feature annotations for a protein

get_proteome

Returns taxonomy, protein count, gene count, reference status, and component information. Use IDs like UP000005640 for human proteome or UP000000589 for mouse. Get a specific proteome by UniProt Proteome ID

get_proteomics

Shows which peptides have been experimentally detected and whether they are unique to this protein. Essential for validating protein expression. Get mass-spectrometry proteomics data for a protein

get_proteomics_ptm

Provides residue-level PTM positions with evidence counts. Get post-translational modifications from mass-spec data

get_taxonomy

Returns scientific name, common name, rank, lineage, parent, and children nodes. Use IDs like 9606 for human, 10090 for mouse, 562 for E. coli. Get taxonomy node details by NCBI taxon ID

get_variation

Each variant includes wild-type and mutant residues, clinical significance, consequence type (e.g. missense, nonsense), and cross-references. Critical for clinical genomics and variant interpretation. Get genetic variants for a protein from multiple sources

search_features_by_type

Valid types include: DOMAIN, BINDING, ACTIVE_SITE, SIGNAL, TRANSMEM, DISULFID, CARBOHYD, MOD_RES, VARIANT, MUTAGEN, REGION, MOTIF, SITE, REPEAT, COILED, COMPBIAS, HELIX, STRAND, TURN. Search features by type across proteins

search_proteins

You can combine gene name (e.g. TP53), organism (e.g. human, 9606), keyword (e.g. kinase), or accession. Returns a summarized list of matching proteins with names, organisms, and sequence lengths. Search proteins by gene name, organism, or keyword

search_proteomes

Returns proteome IDs, taxonomy, protein counts, gene counts, and reference proteome status. Use queries like "homo sapiens", "escherichia coli", "arabidopsis". Search proteomes by organism name

search_taxonomy

Returns matching taxonomy entries with scientific names, common names, taxon IDs, and ranks. Useful for finding the correct taxon ID before querying proteins or proteomes for a specific organism. Search taxonomy by organism name

search_variation

g. large_scale_study, uniprot, mixed), consequence type (e.g. missense, stop gained), and wild-type residue. Use this to find clinically relevant variants across the proteome. Search variants by consequence type, source, or residue

Why Google ADK?

Google ADK natively supports EBI Proteins API as an MCP tool provider. declare Vinkius Edge URL and the framework handles discovery, validation, and execution automatically. Combine 16 tools with Gemini's long-context reasoning for complex multi-tool workflows, with production-ready session management and evaluation built in.

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Google ADK natively supports MCP tool servers. declare a tool provider and the framework handles discovery, validation, and execution
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Built on Gemini models, ADK provides long-context reasoning ideal for complex multi-tool workflows with EBI Proteins API
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Production-ready features like session management, evaluation, and deployment come built-in. not bolted on
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Seamless integration with Google Cloud services means you can combine EBI Proteins API tools with BigQuery, Vertex AI, and Cloud Functions

See it in action

EBI Proteins API in Google ADK

AI Agent→Vinkius

High Security·Kill Switch·Plug and Play

Why Vinkius

EBI Proteins API and 4,000+ other MCP servers. One platform. One governance layer.

Teams that connect EBI Proteins API to Google ADK through Vinkius don't need to source, host, or maintain individual MCP servers. Every tool call runs inside a hardened runtime with credential isolation, DLP, and a signed audit chain.

4,000+MCP Servers ready

<40msCold start

60%Token savings

	Raw MCP	Vinkius
Server catalog	Find and host yourself	4,000+ managed
Infrastructure	Self-hosted	Sandboxed V8 isolates
Credential handling	Plaintext in config	Vault + runtime injection
Data loss prevention	None	Configurable DLP policies
Kill switch	None	Global instant shutdown
Financial circuit breakers	None	Per-server limits + alerts
Audit trail	None	Ed25519 signed logs
SIEM log streaming	None	Splunk, Datadog, Webhook
Honeytokens	None	Canary alerts on leak
Custom domains	Not applicable	DNS challenge verified
GDPR compliance	Manual effort	Automated purge + export

Unlock for AI Agents View step-by-step setup guide for Google ADK →

Enterprise Security

Why teams choose Vinkius for EBI Proteins API in Google ADK

The EBI Proteins API MCP Server runs on Vinkius-managed infrastructure inside AWS — a purpose-built runtime with per-request V8 isolates, Ed25519 signed audit chains, and sub-40ms cold starts. All 16 tools execute in hardened sandboxes optimized for native MCP execution.

Your AI agents in Google ADK only access the data you authorize, with DLP that blocks sensitive information from ever reaching the model, kill switch for instant shutdown, and up to 60% token savings. Enterprise-grade infrastructure, zero maintenance.

Unlock for AI Agents View full EBI Proteins API details →

Fully ManagedVinkius Servers

60%Token savings

High SecurityEnterprise-grade

IAMAccess control

EU AI ActCompliant

DLPData protection

V8 IsolateSandboxed

Ed25519Audit chain

<40msKill switch

Stream every event to Splunk, Datadog, or your own webhook in real-time

* Every MCP server runs on Vinkius-managed infrastructure inside AWS - a purpose-built runtime with per-request V8 isolates, Ed25519 signed audit chains, and sub-40ms cold starts optimized for native MCP execution. See our infrastructure

The Vinkius Advantage

How Vinkius secures
EBI Proteins API for Google ADK

Every tool call from Google ADK to the EBI Proteins API MCP Server is protected by DLP redaction, cryptographic audit chains, V8 sandbox isolation, kill switch, and financial circuit breakers.

< 40msCold start

Ed25519Signed audit chain

60%Token savings

FAQ

Frequently asked questions

Do I need an API key to use this server?

No. The EMBL-EBI Proteins API is completely public and requires no authentication. Simply subscribe to this server and enter any placeholder value in the API key field to start querying protein data immediately.

What kind of variant data is available?

The server aggregates genetic variants from multiple authoritative sources: UniProtKB curated variants, ClinVar clinical significance data, gnomAD population frequencies, 1000 Genomes Project, COSMIC somatic mutations, TOPMed whole-genome sequencing, ExAC exome data, and TCGA cancer variants. Each variant includes consequence type, clinical significance, and source cross-references.

Can I map protein positions to genome coordinates?

Yes. The get_coordinates tool maps any UniProt protein to reference genome coordinates on GRCh38 and GRCh37 assemblies. It returns Ensembl gene, transcript, and translation identifiers along with chromosome, start/end positions, and strand orientation. This bridges the gap between protein-level annotations and genomic-level analyses.

How does Google ADK connect to MCP servers?

Import the MCP toolset class and pass the server URL. ADK discovers and registers all tools automatically, making them available to your agent's tool-use loop.

Can ADK agents use multiple MCP servers?

Yes. Declare multiple MCP tool providers in your agent configuration. ADK merges all tool schemas and the agent can call tools from any server in a single turn.

Which Gemini models work best with MCP tools?

Gemini 2.0 Flash and Pro models both support function calling required for MCP tools. Flash is recommended for latency-sensitive use cases, Pro for complex reasoning.