Natura

Last updated January 31, 2026

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Thermophilic enzymatic biocatalysis pathways: NaturaRecent Research Landscape

Low fidelity and thermal instability in enzymatic reactions lead to high error rates and failed assays. These innovations utilize specific amino acid substitutions and enzymatic stabilization to ensure high-efficiency nucleic acid amplification.

What technical problems is Natura addressing in Thermophilic enzymatic biocatalysis pathways?

Low protein synthesis yields

(17)evidences

High temperatures during amplification cycles cause structural instability and loss of catalytic activity in standard enzymes. Preventing this degradation ensures consistent molecular detection and pathogen control.

Low microbial metabolite yields

(17)evidences

Agricultural yields are limited by uncontrolled canker disease and microbial inactivity in extreme saline-alkali or low-temperature environments. Overcoming these biological constraints ensures consistent biocontrol and nutrient availability under harsh conditions.

Inefficient metabolic substrate conversion

(15)evidences

Enzymatic degradation and loss of activity during industrial processing. Enhancing structural integrity prevents premature catalyst inactivation.