Genergy™ Decoding how AlgaEnergy solutions
naturally energize your crop's gene
expression in less than 2 hours program

What Genergy™ means for your crops? The Genergy™ program is the outcome of many years of research decoding the in-crop Mode of
Action of AlgaEnergy solutions developed with our UPT^® technology. The program, supported by extensive genetic research, has underpinned patent applications, validating the uniqueness of the innovation.

Our biosolutions are proven to help maximize the crop’s genetic potential making crops more
efficient and improving quality and production parameters for growers.

How? AlgaEnergy solutions trigger a response called upregulation in your crops key genes,
meaning our solutions increase the cellular response of the plant with statistical significance, in
less than 2 hours, and improve, in a sustained and stable manner, the critical physiological
pathways of the crop.

Nutrient Uptake
Nitrogen Reliance
Abiotic Stress
Sustained protection Apply before to build resilience Apply after to aid recovery BACK Maximize yield potential Improve fruit caliber and weight Using after: fastest recovery
BACK Increase N use efficiency Reduce environmental impact Nitrogen optimization, better performance BACK

AlgaEnergy solutions’ Mode of Action








DNA-> mRNA
(transcription)







AlgaEnergy
increases the number
of transcripts per gene






mRNA->Protein
(translation)







AlgaEnergy
Up-regulates the genes
in less than 2 hours AlgaEnergy solutions’ Mode of Action








DNA-> mRNA
(transcription)







AlgaEnergy
increases the number
of transcripts per gene






mRNA->Protein
(translation)







AlgaEnergy
Up-regulates the genes
in less than 2 hours Click Here AlgaEnergy solutions’ Mode of Action








DNA-> mRNA
(transcription)







AlgaEnergy
increases the number
of transcripts per gene






mRNA->Protein
(translation)







AlgaEnergy
Up-regulates the genes
in less than 2 hours AlgaEnergy solutions’ Mode of Action
AlgaEnergy solutions’ Mode of Action








DNA-> mRNA
(transcription)







AlgaEnergy
increases the number
of transcripts per gene






mRNA->Protein
(translation)







AlgaEnergy
Up-regulates the genes
in less than 2 hours Plant benefits
Improve roots anchoring Higher stress
resistance Enhance water efficiency and nutrient uptake Greater vigor and photosynthetic capacity AlgaEnergy solutions’ Mode of Action











DNA-> mRNA
(transcription)









AlgaEnergy
increases the number
of transcripts per gene










mRNA->Protein
(translation)










AlgaEnergy
Up-regulates the genes
in less than 2 hours Enhance water efficiency and nutrient uptake Higher stress
resistance Greater vigor and photosynthetic capacity Improve roots anchoring PLANT BENEFITS

It carries a copy of the playbook (section of DNA) or a portion of the playbook, to cell machinery so that it can give instructions on how to make specific proteins that lead to a particular characteristic or function.
Process that occurs within a cell triggered by a signal (originating internal or external to the cell), which results in increased expression of one or more genes and as a result the proteins encoded by those genes.
Plant gene expression is dependent upon a multitude of factors. It is regulated during plant development, and it changes in response to environmental factors, and abiotic or biotic stresses. It is measured by changes in mRNA accumulation. Did you know? It’s the process for copying the DNA sequence (code for a specific protein
leading to a particular characteristic or function) to produce mRNA and represents the first stage of gene expression.

Tanscripts: The mRNA molecule that was synthesized.

Describes functional or anatomical changes, at the cellular level, resulting from the exposure of a living organism to a substance.
It’s the genetic code (instructions) for how a plant will develop, grow and reproduce. The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc. Did you know?
It’s the genetic code (instructions) for how a plant will develop, grow and reproduce. The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc. Did you know? DNA: It’s the genetic code (instructions) for how a plant will develop, grow and reproduce. The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc. mRNA: It carries a copy of the playbook (section of DNA) or a portion of the playbook, tocell machinery so that it can give instructions on how to make specific proteins that lead toa particular characteristic or function. Transcription: It’s the process for copying the DNA sequence (code for a specific protein
leading to a particular characteristic or function) to produce mRNA and represents the firststage of gene expression.

Transcripts: The mRNA molecule that was synthesized. Mode of Action: describes functional or anatomical changes, at the cellular level, resultingfrom the exposure of a living organism to a substance. Gene Expression: Plant gene expression is dependent upon a multitude of factors. It is regulated during plant development, and it changes in response to environmental factors, and abiotic or biotic stresses. It is measured by changes in mRNA accumulation. Upregulation: Upregulation is a process that occurs within a cell triggered by a signal (originating internal or external to the cell), which results in increased expression of one ormore genes and as a result the proteins encoded by those genes. Did you know? DNA: It’s the genetic code (instructions) for how a plant will develop, grow and reproduce. The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc. mRNA: It carries a copy of the playbook (section of DNA) or a portion of the playbook, tocell machinery so that it can give instructions on how to make specific proteins that lead toa particular characteristic or function. Transcription: It’s the process for copying the DNA sequence (code for a specific protein
leading to a particular characteristic or function) to produce mRNA and represents the firststage of gene expression. Transcripts: The mRNA molecule that was synthesized. Mode of Action: describes functional or anatomical changes, at the cellular level, resultingfrom the exposure of a living organism to a substance. Gene Expression: Plant gene expression is dependent upon a multitude of factors. It is regulated during plant development, and it changes in response to environmental factors, and abiotic or biotic stresses. It is measured by changes in mRNA accumulation. Upregulation: Upregulation is a process that occurs within a cell triggered by a signal (originating internal or external to the cell), which results in increased expression of one ormore genes and as a result the proteins encoded by those genes. Did you know? DNA: It’s the genetic code (instructions) for how a plant will develop, grow and reproduce.
The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc. mRNA: It carries a copy of the playbook (section of DNA) or a portion of the playbook, tocell machinery so that it can give instructions on how to make specific proteins that lead toa particular characteristic or function. Transcription: It’s the process for copying the DNA sequence (code for a specific protein
leading to a particular characteristic or function) to produce mRNA and represents the firststage of gene expression. Transcripts: The mRNA molecule that was synthesized. Mode of Action: describes functional or anatomical changes, at the cellular level, resultingfrom the exposure of a living organism to a substance. Gene Expression: Plant gene expression is dependent upon a multitude of factors. It is regulated during plant development, and it changes in response to environmental factors, and abiotic or biotic stresses. It is measured by changes in mRNA accumulation. Upregulation: Upregulation is a process that occurs within a cell triggered by a signal (originating internal or external to the cell), which results in increased expression of one ormore genes and as a result the proteins encoded by those genes. Did you know? DNA: It’s the genetic code (instructions) for how a plant will develop, grow and reproduce.
The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc. mRNA: It carries a copy of the playbook (section of DNA) or a portion of the playbook, tocell machinery so that it can give instructions on how to make specific proteins that lead toa particular characteristic or function. Transcription: It’s the process for copying the DNA sequence (code for a specific protein
leading to a particular characteristic or function) to produce mRNA and represents the firststage of gene expression. Transcripts: The mRNA molecule that was synthesized. Upregulation: Upregulation is a process that occurs within a cell triggered by a signal
(originating internal or external to the cell), which results in increased expression of one ormore genes and as a result the proteins encoded by those genes. Mode of Action: describes functional or anatomical changes, at the cellular level, resultingfrom the exposure of a living organism to a substance. Gene Expression: Plant gene expression is dependent upon a multitude of factors. It is regulated during plant development, and it changes in response to environmental factors, and abiotic or biotic stresses. It is measured by changes in mRNA accumulation. Did you know?
It’s the genetic code (instructions) for how a plant will develop, grow and reproduce. The section of DNA (gene) spells out specific instructions – much like a cookbook recipe –
for making proteins, etc.

Plant benefits
Improve root
anchoring and
nutrient uptake Increase
resilience
to stress Enhance water
and nutrient
use efficiency Greater vigor and photosynthetic capacity Plant benefits
Improve roots anchoring Higher stress
resistance Enhance water efficiency and nutrient uptake Greater vigor and photosynthetic capacity Click Here Plant benefits
Improve roots anchoring Higher stress
resistance Enhance water efficiency and nutrient uptake Greater vigor and photosynthetic capacity AlgaEnergy solutions’
Mode of Action








DNA-> mRNA
(transcription)







AlgaEnergy
increases the number
of transcripts per gene






mRNA->Protein
(translation)







AlgaEnergy
Up-regulates the genes
in less than 2 hours AlgaEnergy solutions’ Mode of Action











DNA-> mRNA
(transcription)









AlgaEnergy
increases the number
of transcripts per gene










mRNA->Protein
(translation)










AlgaEnergy
Up-regulates the genes
in less than 2 hours Enhance water efficiency and nutrient uptake Higher stress
resistance Greater vigor and photosynthetic capacity Improve roots anchoring PLANT BENEFITS

Genergy™ reveals how AlgaEnergy solutions help crops become more efficient by maximizing their genetic potential Research conducted in partnership with the University of Seville (Spain) & AgriBio at Latrobe University (Australia). Key gene upregulation with statistical significance Fastest activation of critical physiological pathways Stable
and Sustained
upregulation Improved crop efficiency and grower satisfaction