PsbA

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PSII D1 expression (psbA)
Approach: RT-qPCR or ddPCR of psbA transcripts
Context: incubation, lab
Spatial scale: point sample
Temporal scale: minutes to hours
Units: transcripts L^-1 or relative abundance
Community captured: bulk to group-specific
Co-measurements: FRRf (variable fluorescence); O₂ production (Clark electrode)

Method Overview

psbA encodes the D1 reaction centre protein of photosystem II (PSII), which is the primary target for photodamage and is rapidly turned over under high-light conditions. Because D1 repair is tightly coupled to PSII electron transport, psbA transcript abundance has been used as a proxy for PSII activity and the transcriptional response to changing irradiance. Transcripts are quantified by RT-qPCR or ddPCR using degenerate or group-specific primers, following the same nucleic acid extraction and reverse transcription workflow as for rbcL^[1].

When combined with PSII fluorescence-based measurements (FRRf) or direct O₂ production assays, psbA expression can be linked to photosynthetic electron transport rates and used to infer D1 protein synthesis and repair rates.

Scale of measurement

Each filtered sample provides a point measurement. psbA transcripts respond rapidly to changes in irradiance (timescale of minutes to hours), making the time of day of collection a critical variable. The method captures a snapshot of the transcriptional state at the moment of sampling.

Data generated

psbA transcript concentrations (transcripts L^-1) or relative expression (normalized to a reference gene). The ratio of psbA to reference gene expression is used to assess transcriptional upregulation or downregulation relative to a control treatment.

Units & currency

Units are transcripts L^-1 or relative abundance. The currency is cDNA copies.

Sample size

Typical samples are ~1 L in volume.

Repositories & databases

Limitations

psbA transcript levels change on timescales of minutes in response to irradiance shifts, making sampling time critical and requiring rapid, standardized sample collection to avoid ex-situ artifacts. Degenerate primer biases apply as for rbcL. A single gene copy per genome is assumed. Transcript levels report transcriptional activity but do not directly indicate the rate of D1 protein synthesis or repair without additional data on translation efficiency and protein turnover.

Example Applications & Protocols

Classic examples

Zeidner et al. (2003) Molecular diversity among marine picophytoplankton as revealed by psbA analyses ^[1]

Recent applications

Common calculations/conversions

Relative expression: ΔΔCt method — compare psbA Ct to reference gene Ct across treatments: fold change = 2^−ΔΔCt.

References

↑ ^1.0 ^1.1 Zeidner, G., Preston, C. M., DeLong, E. F., Massana, R., Post, A. F., Scanlan, D. J., & Béjà, O. (2003). Molecular diversity among marine picophytoplankton as revealed by psbA analyses. Environmental Microbiology, 5(3), 212–216. https://doi.org/10.1046/j.1462-2920.2003.00403.x

[Zeidner2003-1] 1.0 ^1.1 Zeidner, G., Preston, C. M., DeLong, E. F., Massana, R., Post, A. F., Scanlan, D. J., & Béjà, O. (2003). Molecular diversity among marine picophytoplankton as revealed by psbA analyses. Environmental Microbiology, 5(3), 212–216. https://doi.org/10.1046/j.1462-2920.2003.00403.x

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