Acclimation to low light by C4 maize: implications for bundle sheath leakiness.

@article{Bellasio2014AcclimationTL,
  title={Acclimation to low light by C4 maize: implications for bundle sheath leakiness.},
  author={Chandra Bellasio and Howard Griffiths},
  journal={Plant, cell \& environment},
  year={2014},
  volume={37 5},
  pages={
          1046-58
        }
}
C4 plants have a biochemical carbon concentrating mechanism (CCM) that increases CO2 concentration around ribulose bisphosphate carboxylase oxygenase (Rubisco) in the bundle sheath (BS). Under limiting light, the activity of the CCM generally decreases, causing an increase in leakiness, (Φ), the ratio of CO2 retrodiffusing from the BS relative to C4 carboxylation processes. Maize plants were grown under high and low light regimes (respectively HL, 600 versus LL, 100 μE m(-2)  s(-1) ). Short… 
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Resolving leaf level metabolism of C4 Setaria viridis acclimated to low light through a biochemical model
TLDR
The striking capacity of S. viridis to acclimate light reactions presents a novel and perhaps the most efficient shade tolerance strategy, potentially leading to novel possibilities for crop improvement.
Acclimation of C4 metabolism to low light in mature maize leaves could limit energetic losses during progressive shading in a crop canopy
TLDR
Maize plants were grown under light regimes representing the cycle that leaves undergo in the canopy, whereby younger leaves initially developed under high light and were then re-acclimated to low light for 3 weeks, showing that irrespective of whether leaves are acclimated to very low or high light intensity, the biochemical efficiency of the C4 cycle does not decrease at low photosynthetically active radiation.
Bundle-sheath leakiness in C4 photosynthesis: a careful balancing act between CO2 concentration and assimilation.
TLDR
Improvements in methodology to estimate leakiness, synthesizing reports on bundle-sheath leakiness are synthesized, different interpretations are discussed, and areas where future research is necessary are highlighted.
Influence of light and nitrogen on the photosynthetic efficiency in the C4 plant Miscanthus × giganteus
TLDR
The data suggest that the CO2 concentrating mechanism in Miscanthus is robust under low-light and limited nitrogen growth conditions, and that the observed changes in leaf anatomy and biochemistry likely help to maintain this efficiency.
Cold acclimation of mesophyll conductance, bundle-sheath conductance and leakiness in Miscanthus x giganteus.
TLDR
The results in Miscanthus support that gm and gbs are unresponsive to growth temperature and that the CCM is able to acclimate to cold through increased activity of PPDK and Rubisco.
Bundle-sheath leakiness and intrinsic water use efficiency of a perennial C4 grass are increased at high vapour pressure deficit during growth
TLDR
Bundle‐sheath leakiness is a key parameter of the CO2‐concentrating mechanism of C4 photosynthesis and is related to leaf‐level intrinsic water use efficiency (WUEi) and the data indicate a trade‐off between WUEi and energetic efficiency in C. squarrosa.
Anatomical constraints to C4 evolution: light harvesting capacity in the bundle sheath.
TLDR
It is proposed that larger BS in C3 lineages may be co-opted for C3 -C4 and C4 biochemistry requirements, allowing greater operational plasticity in C4 photosynthesis.
Flexibility of C 4 decarboxylation and photosynthetic plasticity in sugarcane plants under shading
The Operation of Two Decarboxylases, Transamination, and Partitioning of C4 Metabolic Processes between Mesophyll and Bundle Sheath Cells Allows Light Capture To Be Balanced for the Maize C4 Pathway1[W]
Light quality was used to manipulate ATP supply and demand between C4 pathway mesophyll and bundle sheath, and the results are consistent with a metabolic model that explains the requirement for two
A two-dimensional microscale model of gas exchange during photosynthesis in maize (Zea mays L.) leaves.
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