LOVS1K

Also known as: LOVS1K

Taxonomy: Mechanism Branch / Architecture. Workflows sit above the mechanism and technique branches rather than replacing them.

Summary

The supplied web research summary states that the anchor review explicitly lists LOVS1K as a named LOV2-based calcium actuator.

Usefulness & Problems

No literature-backed usefulness or problem-fit explainer has been materialized for this record yet.

Taxonomy & Function

Primary hierarchy

Mechanism Branch

Architecture: A composed arrangement of multiple parts that instantiates one or more mechanisms.

Mechanisms

Oligomerization

Techniques

Computational Design

Target processes

signaling

Input: Light

Validation

Cell-freeBacteriaMammalianMouseHumanTherapeuticIndep. Replication

Supporting Sources

Source 1review2024Journal of Biological Chemistry

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

Source 2review2021Cells

1 ranked citation 1 ranked claim Citation 2 Claim 3

Ranked Claims

Claim 1design mechanism summarysupports2024Source 1needs review

The review scaffold groups STIM1 optogenetic tools into at least CRY2-based oligomerization designs and LOV2-based unfolding or caging designs for optical control of calcium signaling.

Claim 2tool family membershipsupports2024Source 1needs review

The review scaffold explicitly names OptoSTIM1, monSTIM1, eOS1, Opto-CRAC1, Opto-CRAC2, BACCS, and LOVS1K as STIM1-related optogenetic calcium-control tools or variants within the review scope.

Claim 3review scope statementsupports2021Source 2needs review

The review covers optogenetic tools for precise control of Ca2+-permeable ion channels, receptors, and associated downstream signaling cascades.

Here, we review the various optogenetic tools that have been used to achieve precise control over different Ca2+-permeable ion channels and receptors and associated downstream signaling cascades.

Approval Evidence

2 sources3 linked approval claimsfirst-pass slug lovs1k

The supplied web research summary states that the anchor review explicitly lists LOVS1K as a named LOV2-based calcium actuator.

Source:

Web research summary lists LOVS1K as an explicitly identified predecessor/comparator optogenetic Ca2+ control tool relevant to this review.

Source:

design mechanism summarysupports

The review scaffold groups STIM1 optogenetic tools into at least CRY2-based oligomerization designs and LOV2-based unfolding or caging designs for optical control of calcium signaling.

Source:

tool family membershipsupports

The review scaffold explicitly names OptoSTIM1, monSTIM1, eOS1, Opto-CRAC1, Opto-CRAC2, BACCS, and LOVS1K as STIM1-related optogenetic calcium-control tools or variants within the review scope.

Source:

review scope statementsupports

The review covers optogenetic tools for precise control of Ca2+-permeable ion channels, receptors, and associated downstream signaling cascades.

Here, we review the various optogenetic tools that have been used to achieve precise control over different Ca2+-permeable ion channels and receptors and associated downstream signaling cascades.

Source:

Comparisons

No literature-backed comparison notes have been materialized for this record yet.

Ranked Citations

1.
StructuralSource 1Journal of Biological Chemistry2024Claim 1 Claim 2
Extracted from this source document.
2.
StructuralSource 2Cells2021Claim 3
Seeded from load plan for claim cl3. Extracted from this source document.