SSBD:database v3

Project

Project

329-Nelson-Chemotaxis

Title

Ammonium chemotaxis of Chlamydomonas reinhardtii

Description

The mechanisms governing chemotaxis in Chlamydomonas reinhardtii are largely unknown compared to those regulating phototaxis despite equal importance on the migratory response in the ciliated microalga. To study chemotaxis, the authors made a simple modification to a conventional Petri dish assay. Using the assay, a novel mechanism governing Chlamydomonas ammonium chemotaxis was revealed. First, they found that light exposure enhances the chemotactic response of wild‐type Chlamydomonas strains, yet phototaxis‐incompetent mutant strains, eye3-2 and ptx1, exhibit normal chemotaxis. This suggests that Chlamydomonas transduces the light signal pathway in chemotaxis differently from that in phototaxis. Second, we found that Chlamydomonas collectively migrate during chemotaxis but not phototaxis. Collective migration during chemotaxis is not clearly observed when the assay is conducted in the dark. Third, the Chlamydomonas strain CC‐124 carrying agg1−, the AGGREGATE1 gene (AGG1) null mutation, exhibited a more robust collective migratory response than strains carrying the wild‐type AGG1 gene. The expression of a recombinant AGG1 protein in the CC‐124 strain suppressed this collective migration during chemotaxis.

License

CC BY

Funding

This research was conducted with funds from Louisiana Economic Development Assistantship and LSU LIFT2 Fund for N.K. Japan Society for the Promotion of Science KAKENHI Grants 21H00420, 22H02642 and 22H05674 for K.W.

Dataset

Title

Time series images of the ammonium chemotaxis of two transgenic lines of Chlamydomonas CC-124

Description

Time series images of the ammonium chemotaxis of two transgenic lines of Chlamydomonas CC-124, in which the recombinant AGG1 protein was expressed. Time series of 0h, 3h, 6h, 12h, 24h.

License

CC BY

Submitted at

None

Released at

None

Updated at

Biosamples

Description

Two transgenic lines of Chlamydomonas CC-124, in which the recombinant AGG1 protein was expressed.

Organisms

Chlamydomonas reinhardtii (NCBI:txid3055)

Strains

CC-124

Cells

Cell lines

Intrinsic variables

Transgenic lines of Chlamydomonas CC-124, in which the recombinant AGG2 protein was expressed.

Extrinsic variables

Ontologies

UBERON

Anatomical entities

Gene ontology: Biological processes

cell chemotaxis (GO:0060326) (GO:0060326)

Gene ontology: Cellular components

Gene ontology: Molecular functions

Genetics

Gene names

agg1

Protein names

AGGREGATE1

Genetic methods

electroporation (http%253A%252F%252Fpurl.allotrope.org%252Fontologies%252Fprocess%2523AFP_0001367)

Protein tags

Probes

Oligo Primer

Genotype

Treatments

Reagent or Compound

Concentrations

FoldDilution

Imaging Methods

Dimensions

3974x2980x1x1x1

X scales

Y scales

Z scales

T scales

Channels

1 channel

Microscopy types

(macroscopy)

Detection methods

Visualization methods

Illumination methods

Sources of contrast

Contrast enhancing methods

Resolution enhancing methods

Image parameters

Sample preparation methods

Instruments

Body

Model

Light source

Detector

Objective

Filter set

Dichroic