Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II


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Planta , 79—90 Flexas, J. Mesophyll diffusion conductance to CO 2 : An unappreciated central player in photosynthesis. Plant Science — , 70—84 Mesophyll conductance to CO 2 : current knowledge and future prospects. Plant, Cell and Environment 31 , — Li, Y. Light-saturated photosynthetic rate in high-nitrogen rice Oryza sativa L.

Elliot Meyerowitz (Caltech, HHMI) 2: Plant development: Modeling Arabidopsis phyllotaxis

Journal of Experimental Botany 60 , — Xiong, D. Rapid responses of mesophyll conductance to changes of CO 2 concentration, temperature and irradiance are affected by N supplements in rice. Plant, Cell and Environment 38 , — a. Heterogeneity of photosynthesis within leaves is associated with alteration of leaf structural features and leaf N content per leaf area in rice. Functional Plant Biology 42 , — b. Evans, J. Resistances along the CO 2 diffusion pathway inside leaves. Terashima, I. Leaf functional anatomy in relation to photosynthesis.

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Importance of leaf anatomy in determining mesophyll diffusion conductance to CO 2 across species: quantitative limitations and scaling up by models. Journal of Experimental Botany 64 , — Jeong, W. Kasahara, M. Chloroplast avoidance movement reduces photodamage in plants. Nature , — Hikosaka, K. Effects of leaf age, nitrogen nutrition and photon flux density on the organization of the photosynthetic apparatus in leaves of a vine Ipomoea tricolor Cav. Planta , — Does chloroplast size influence photosynthetic nitrogen use efficiency?

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Chloroplast Research in Arabidopsis

Lycopersicon, sect. Lycopersicoides; Solanaceae. Plant, Cell and Environment 37 , — Tosens, T. Anatomical basis of variation in mesophyll resistance in eastern Australian sclerophylls : news of a long and winding path. Sage, R.

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Chloroplast Research in Arabidopsis: Methods and Protocols, Volume I

Plant Physiology 98 , — The relationship between CO 2 transfer conductance and leaf anatomy in transgenic tobacco with a reduced content of Rubisco. Functional Plant Biology 21 , — Thain, J. Curvature correction factors in the measurement of cell surface areas in plant tissues. Journal of Experimental Botany 34 , 87—94 Grassi, G. Stomatal, mesophyll conductance and biochemical limitations to photosynthesis as affected by drought and leaf ontogeny in ash and oak trees.

Plant, Cell and Environment 28 , — Download references. Correspondence to Yong Li. Publisher's note: Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Reprints and Permissions. Physiologia Plantarum Current Biology New Phytologist International Journal of Plant Sciences Plant Science By submitting a comment you agree to abide by our Terms and Community Guidelines.

If you find something abusive or that does not comply with our terms or guidelines please flag it as inappropriate. Advanced search. Skip to main content. Subjects C3 photosynthesis Plant physiology. Abstract The photosynthetic, biochemical, and anatomical traits of accumulation and replication of chloroplasts arc mutants of Arabidopsis thaliana were investigated to study the effects of chloroplast size and number on photosynthesis.

Introduction The chloroplast is one of the most important plant organelles and carries out many important functions such as fatty acid synthesis, nitrogen N and sulphur fixation, and especially photosynthetic carbon fixation 1. Table 1 Details of the materials used in this study. Full size table. Table 2 Leaf functional characteristics. Figure 1. Full size image. Figure 2. Figure 3. Figure 4.

Table 3 Leaf chemical features Full size table. Table 4 Leaf anatomical characteristics. Figure 5. Variation in biochemical features and their effects on photosynthesis Tight correlations between A and leaf N content and Rubisco content per leaf area were frequently observed in previous studies Variation in CO 2 diffusion conductance Compared with the wild-type plants, a lower g s was observed in both mutants.

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Figure 6. Under strong light, the chloroplasts migrate to the sidewall anticlinal wall. Photographs of the adaxial side of Arabidopsis thaliana leaf sections.

Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II
Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II Chloroplast Research in Arabidopsis: Methods and Protocols, Volume II

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