EurekaMag.com logo
+ Site Statistics
References:
52,654,530
Abstracts:
29,560,856
PMIDs:
28,072,755
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on LinkedInFollow on LinkedIn

+ Translate

Differing ontogenetic origins of PCR (Kranz) sheaths in leaf blades of C4 grasses (Poaceae)



Differing ontogenetic origins of PCR (Kranz) sheaths in leaf blades of C4 grasses (Poaceae)



American Journal of Botany 72(2): 284-302



A comparison of major vein development in the leaf blades of several C4 grasses and a C3 grass (Festuca arundinacea) indicated that the photosynthetic C reduction (PCR) sheaths of double sheath (XyMS+) C4 spp. (Panicum effusum, Eleusine coracana and Sporobolus elongatus) were homologous with the parenchymatous bundle sheaths of C3 grasses, while in single sheath (XyMS-) C4 spp. (P. bulbosum, Digitaria brownii and Cymbopogon procerus) they were homologous with the mestome sheath.

(PDF emailed within 0-6 h: $19.90)

Accession: 001336444

Download citation: RISBibTeXText

DOI: 10.1002/j.1537-2197.1985.tb08293.x



Related references

Differing ontogenetic origins of photosynthetic kranz sheaths in leaf blades of 4 carbon pathway grasses poaceae. American Journal of Botany 72(2): 283-302, 1985

Differing ontogenetic origin of pcr kranz sheaths in leaf blades of 4 carbon pathway grasses poaceae. American Journal of Botany 70(5 PART 2): 18-19, 1983

Occurrence of the suberized lamella in leaves of grasses of different photosynthetic types. I. In parenchymatous bundle sheaths and PCR (Kranz) sheaths. Protoplasma 109(3/4): 371-401, 1981

New structural/biochemical associations in leaf blades of C4 grasses (Poaceae). Australian Journal of Plant Physiology 14(4): 403-420, 1987

New structural biochemical associations in leaf blades of 4 carbon pathway grasses poaceae. Australian Journal of Plant Physiology 14(4): 403-420, 1987

Occurrence of the suberized lamella in leaves of grasses of different photosynthetic types 1. in parenchymatous bundle sheaths and photosynthetic carbon reduction cell kranz sheaths. Protoplasma 109(3-4): 371-402, 1981

Studies on the morphology and function of mesophyll cells in the leaf blades and leaf sheaths of rye. Acta Agronomica Sinica 19(1): 29-35, 1993

Diel patterns of carbohydrate metabolism in leaf blades and leaf sheaths of poa annua and poa jemtlandica. New Phytologist 100(4): 519-532, 1985

Studies on the morphology and function of the mesophyll cells of leaf blades and leaf sheaths in rye (Secale cereale L.). Acta Agronomica Sinica 19(1): 29-35, 1993

Compartmentation and fluxes of carbon in leaf blades and leaf sheaths of Poa annua L. and Poa X jemtlandica (Almq.) Richt. Plant, Cell and Environment 11(6): 535-545, 1988

Synchronous elongation of leaf blades, leaf sheaths, internodes and the panicle on the main stem in wheat and barley. Bulletin of the Akita Prefectural College of Agriculture ( 25): 33-39, 1999

Diel patterns of carbohydrate metabolism in leaf blades and leaf sheaths of Poa annua L. and Poa X jemtlandica (Almq.) Richt. New Phytologist 100(4): 519-531, 1985

Variations in the proportions and crude protein contents of leaf blades, leaf sheaths, stems and inflorescences in Setaria sphacelata. S. Afr. J, Agric. Sci, 6: 2, 221-32. bibl. 9, 1963

Oxidative burst and expression of germin/oxo genes during wounding of ryegrass leaf blades: comparison with senescence of leaf sheaths. Plant Journal 38(3): 421-431, 2004