1e26 / BioControl Toolkit DB

Summary

Post-translational covalent modification can provide an additional level of enzyme control.

Usefulness & Problems

Why this is useful

This strategy uses post-translational covalent modification to modulate enzyme control beyond sequence-level engineering alone.; adding an additional level of enzyme control; engineering controllable enzyme behavior

Source:

This strategy uses post-translational covalent modification to modulate enzyme control beyond sequence-level engineering alone.

Source:

adding an additional level of enzyme control

Source:

engineering controllable enzyme behavior

Problem solved

It helps create an extra regulatory layer for controlling enzyme structural dynamics and function.; providing extra regulatory control over enzyme function

Source:

It helps create an extra regulatory layer for controlling enzyme structural dynamics and function.

Source:

providing extra regulatory control over enzyme function

Problem links

providing extra regulatory control over enzyme function

Literature

It helps create an extra regulatory layer for controlling enzyme structural dynamics and function.

Source:

It helps create an extra regulatory layer for controlling enzyme structural dynamics and function.

Taxonomy & Function

Primary hierarchy

Mechanism Branch

Architecture: A reusable architecture pattern for arranging parts into an engineered system.

Mechanisms

control of conformational changescontrol of enzyme structural dynamicspost-translational covalent modificationTranslation Control

Techniques

Structural Characterization

Target processes

translation

Implementation Constraints

cofactor dependency: cofactor requirement unknownencoding mode: genetically encodedimplementation constraint: context specific validationoperating role: regulator

It requires a modification chemistry or biological modification system compatible with the target enzyme. The abstract does not specify the exact modification platforms.; requires a compatible post-translational covalent modification strategy

The abstract does not establish that it universally enables precise, reversible, or stimulus-specific control in all enzyme systems.; the abstract does not specify which covalent modifications, triggers, or enzyme classes are most suitable

Validation

Cell-freeBacteriaMammalianMouseHumanTherapeuticIndep. Replication

Supporting Sources

Source 1review2018Protein Science

1 ranked citation 3 ranked claims Citation 1 Claim 1 Claim 2 Claim 3

Ranked Claims

Claim 1application potentialsupports2018Source 1needs review

The ability to engineer and control enzyme structural dynamics can provide new tools for biotechnology and medicine.

Claim 2engineering strategy summarysupports2018Source 1needs review

Post-translational covalent modification can provide an additional level of enzyme control.

Claim 3engineering strategy summarysupports2018Source 1needs review

Protein engineering efforts have manipulated enzyme structural dynamics and conformational changes by targeting specific amino acid interactions and by creating chimeric enzymes with new regulatory functions.

Approval Evidence

1 source2 linked approval claimsfirst-pass slug post-translational-covalent-modification-for-enzyme-control

Post-translational covalent modification can provide an additional level of enzyme control.

Source:

application potentialsupports

The ability to engineer and control enzyme structural dynamics can provide new tools for biotechnology and medicine.

Source:

engineering strategy summarysupports

Post-translational covalent modification can provide an additional level of enzyme control.

Source:

Comparisons

Source-stated alternatives

The abstract mentions targeting specific amino acid interactions and creating chimeric enzymes as alternative engineering routes.

Source:

The abstract mentions targeting specific amino acid interactions and creating chimeric enzymes as alternative engineering routes.

Source-backed strengths

adds an additional level of control

Source:

adds an additional level of control

Compared with 4pLRE-cPAOX1

post-translational covalent modification for enzyme control and 4pLRE-cPAOX1 address a similar problem space because they share translation.

Shared frame: same top-level item type; shared target processes: translation; shared mechanisms: translation_control

Strengths here: looks easier to implement in practice.

Compared with blue-light-activated DNA template ON switch

post-translational covalent modification for enzyme control and blue-light-activated DNA template ON switch address a similar problem space because they share translation.

Shared frame: same top-level item type; shared target processes: translation; shared mechanisms: translation_control

Strengths here: looks easier to implement in practice.

Compared with functional electrical stimulation

post-translational covalent modification for enzyme control and functional electrical stimulation address a similar problem space because they share translation.

Shared frame: same top-level item type; shared target processes: translation; shared mechanisms: translation_control

Ranked Citations

1.
StructuralSource 1Protein Science2018Claim 1 Claim 2 Claim 3
Seeded from load plan for claim cl3. Extracted from this source document.