We Have Mastered Cell Communication and Signaling

SignaCell™ It is the world’s first signaling biopolymer, featuring an active surface with a quantum-silicon structure designed to initiate a strong biological response through electrical induction. Upon contact with cells, it delivers precise, non-invasive stimuli, activating multiple signaling pathways in microorganisms, cells, or plants. Importantly, this process also enhances the internal communication of cells, amplifying their own signaling networks and significantly boosting their activity and efficiency.

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Results

Bacterial Cultures

5 - fold greater E. coli colony growth (2 validations in different institutions)

5 - fold faster Salmonella detection (5 hours instead of standard 24 hours)

Increased culture consistency and viability

University of Rzeszów
SH Hamilton Network Laboratory, Łódź

Stem Cells

12 - fold multiplication rate increase

(Maintained genetic stability, No aging signs through 7 passages, Full cultures achieved from first passage)

Polish Academy of Sciences, Warsaw

Fungal Cultures

16 - fold increased growth for Lentinula edodes (shiitake mushroom)

Enhanced morphological structure

Significant mass increase for Armillaria mellea (honey fungus)

Medical University of Warsaw

Industrial Applications

60% increase in algae biomass production.

Reduced fermentation times, improved product quality.

Malaysia

Bacterial Cultures

5 - fold greater E. coli colony growth (2 validations in different institutions)

5 - fold faster Salmonella detection (5 hours instead of standard 24 hours)

Increased culture consistency and viability

University of Rzeszów
SH Hamilton Network Laboratory, Łódź

Stem Cells

12 - fold multiplication rate increase

(Maintained genetic stability, No aging signs through 7 passages, Full cultures achieved from first passage)

Polish Academy of Sciences, Warsaw

Fungal Cultures

16 - fold increased growth for Lentinula edodes (shiitake mushroom)

Enhanced morphological structure

Significant mass increase for Armillaria mellea (honey fungus)

Medical University of Warsaw

Industrial Applications

60% increase in algae biomass production.

Reduced fermentation times, improved product quality.

Malaysia

Bacterial Cultures

5 - fold greater E. coli colony growth (2 validations in different institutions)

5 - fold faster Salmonella detection (5 hours instead of standard 24 hours)

Increased culture consistency and viability

University of Rzeszów
SH Hamilton Network Laboratory, Łódź

Stem Cells

12 - fold multiplication rate increase

(Maintained genetic stability, No aging signs through 7 passages, Full cultures achieved from first passage)

Polish Academy of Sciences, Warsaw

Fungal Cultures

16 - fold increased growth for Lentinula edodes (shiitake mushroom)

Enhanced morphological structure

Significant mass increase for Armillaria mellea (honey fungus)

Medical University of Warsaw

Industrial Applications

60% increase in algae biomass production.

Reduced fermentation times, improved product quality.

Malaysia

Bacterial Cultures

5 - fold greater E. coli colony growth (2 validations in different institutions)

5 - fold faster Salmonella detection (5 hours instead of standard 24 hours)

Increased culture consistency and viability

University of Rzeszów
SH Hamilton Network Laboratory, Łódź

Stem Cells

12 - fold multiplication rate increase

(Maintained genetic stability, No aging signs through 7 passages, Full cultures achieved from first passage)

Polish Academy of Sciences, Warsaw

Fungal Cultures

16 - fold increased growth for Lentinula edodes (shiitake mushroom)

Enhanced morphological structure

Significant mass increase for Armillaria mellea (honey fungus)

Medical University of Warsaw

Industrial Applications

60% increase in algae biomass production.

Reduced fermentation times, improved product quality.

Malaysia

Pathways activated through biomimetic signal induction

Mammalian cells

PI3K/AKT/mTOR pathway

MAPK/ERK cascade

cAMP/PKA pathway

Wnt/β-catenin pathway

Microorganisms

Quorum sensing

Two - component signaling systems

Stress response pathways

TOR - like systems

Fungi

Mechanosensory pathways

Two-component systems

MAPK stress pathways

Fungal quorum sensing

Cell wall sensory systems

Ca2+ ion channels

Plants

Mechanosensory pathways

Gravitropic systems

Mechanosensitive ion channels

Ca2+ pathways

Root sensory systems

MAPK stresss cascades

Built for Intelligent Bioprocessing

Universality

Compatibility with various bioprocesses

Adaptility to different industries

Scalability from laboratory to industrial scale

Ease of Implementation

Easy integration with existing systems

Minimal infrastructure changes

Adaptability to different equipment types

Precision

Ability to customize for specific processes

Parameter optimization

Consistens results

Applications

Bio Pharmaceutical

Medical Diagnostics

Food Safety

Regenerative and Aesthetic Medicine

Biotechnology Manufacturing

Renewable Energy

Agriculture and Food Industry

Environmental Protection

Process Acceleration

Faster multiplication rate

Shortened processing times

Accelerated metabolite production

Significant time savings in bioprocesses

Performance Improvement

Increased biomass production

Improved conversion rates

Higher end product quantities

Significant efficiency increases across various industries

Quality Improvement

Greater product consistency

Improved structural integrity

Increased genetic stability

End products with better properties

Resource Efficiency

Reduced energy consumption

Lower water usage

Minimal waste production

Optimal human resource utilization

More sustainable and economical bioprocesses

Cost Reduction

Shortened production time

Lower operating costs

Reduced equipment wear

Resource loss minimization

Significant savings for enterprises

Environmental impact

Reduced carbon footprint

Lower environmental burden

Sustainable process optimization

Increased eco-efficiency

Environmentally friendly technology

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Designed and developed by soyastudio.pl

HOME

SIGNA CELL™

APPLICATIONS

NEWS

CONTACT

Legal Notice and Terms of Use

Designed and developed by soyastudio.pl

HOME

SIGNA CELL™

APPLICATIONS

NEWS

CONTACT

Legal Notice and Terms of Use

Designed and developed by soyastudio.pl

HOME

SIGNA CELL™

APPLICATIONS

NEWS

CONTACT

Legal Notice and Terms of Use

Designed and developed by soyastudio.pl

HOME

SIGNA CELL™

APPLICATIONS

NEWS

CONTACT

Legal Notice and Terms of Use

Designed and developed by soyastudio.pl

HOME

SIGNA CELL™

APPLICATIONS

NEWS

CONTACT

Legal Notice and Terms of Use

Designed and developed by soyastudio.pl

HOME

SIGNA CELL™

APPLICATIONS

NEWS

CONTACT

Legal Notice and Terms of Use

Designed and developed by soyastudio.pl