Pit connection

In Plant anatomy, a pit connection is a hole in the septum between two algal cells, and is found only in the red algae[1] - specifically, all orders except the Porphyridiales and haploid Bangiales.[2] They are often stoppered with "pit plugs". They are in fact neither pits, nor connections, yet the term remains in use due to its longevity.[2] By contrast, many fungi (only ascomycetes and basidomycetes, as other groups lack septa) contain septal pores - an unrelated phenomenon.[3]

Contents

Characteristics

A sieve-like membrane may cover the pit in living algae,[4] but in the majority of algae a plug forms, limiting the transfer of metabolites between neighbouring cells.[5][2]

Pit connections come in many varieties: the micropores of the zygomycetes; the simple, Woronin body-bearing pores of the ascomycetes, and the dolipores of the holobasidiomycetes and phragmobasidiomycetes. Simple, unornamented, pores are also associated with the teliomycetes, where they are accompanied by "pulley wheel occlusions". "Munk pores" are found in the walls of some Sordariales[6] and are surrounded by a raised rim.[6] Dolipores too have a thick wall surrounding their opening,[7] which prevents the movement of cell organelles between adjoining cells, while permitting the sharing of cell fluids. These may be further covered by septal pore caps.[8]

The dolipores of the Agaricomycotina (basidomycetes) are often surrounded by bracket-shaped structures called parenthesomes - but other basidomycetes have differently structured pores.[9]

Formation

Primary pit connections are formed between cells in the same filament, derived from the same parent cell by its division.[4] Such connections are always single, and usually circular;[4] this is a result of their method of formation. The septa is formed as the walls of a filament grow inwards, dividing the cell; this results in a hole in the middle of the tube where the walls don't quite merge.[2] Thus connections are visible in the youngest of septa, widening as the septum thickens, until in some cases they may ultimately occupy the entire septum.[4] Secondary connections, by contrast, occur between unrelated cells, and serve a role in transferring cell contents and nutrients.[2] They may even form between cells of different species, as in the parasite Holmsella.[10]

External links

References

  1. ^ Clinton J. Dawes,; Scott, Flora M.; Bowler, E. (1961), "A Light- and Electron-Microscopic Survey of Algal Cell Walls. I. Phaeophyta and Rhodophyta", American Journal of Botany (Botanical Society of America) 48 (10): 925–934, doi:10.2307/2439535, JSTOR 2439535. 
  2. ^ a b c d e lee, R.E. (2008), Phycology, 4th edition, Cambridge University Press, ISBN 978-0521638838 
  3. ^ Ellis, T.T.; Reynolds, D.R.; Alexopoulos, C.J. (1973), "Hulle Cell Development in Emericella nidulans", Mycologia (Mycological Society of America) 65 (5): 1028–1035, doi:10.2307/3758285, JSTOR 3758285. 
  4. ^ a b c d Fritsch, F. E. (1945), The structure and reproduction of the algae, Cambridge: Cambridge Univ. Press, ISBN 0521050421, OCLC 223742770 
  5. ^ Turner, C. H. C.; Evans, L. V. (1978), "Translocation of photoassimilated 14C in the red alga Polysiphonia lanosa", European Journal of Phycology 13 (1): 51–55, doi:10.1080/00071617800650061, http://www.informaworld.com/index/771027465.pdf 
  6. ^ a b Ho, W. H.; Hyde, K. D. (2004), "A new type of conidial septal pore in fungi", Fungal Diversity 15: 171–186, http://www.fungaldiversity.org/fdp/sfdp/15-8.pdf 
  7. ^ Ellis, Tim T.; Rogers, Milton A.; Mims, Charles W. (1972), "The Fine Structure of the Septal Pore Cap in Coprinus stercorarius", Mycologia (Mycological Society of America) 64 (4): 681–688, doi:10.2307/3757925, JSTOR 3757925 
  8. ^ Ller, Joost A. Stalpers; Boekhout, Teun (1998), "Field Emission Gun-Scanning Electron Microscopy of Septal Pore Caps of Selected Species in the Rhizoctonia s.l. Complex", Mycologia (Mycological Society of America) 90 (2): 170–179, doi:10.2307/3761292, JSTOR 3761292 
  9. ^ Hibbett, David S. 2007. Agaricomycotina. Jelly Fungi, Yeasts, and Mushrooms. Version 20 April 2007. [1] in The Tree of Life Web Project, [2]
  10. ^ Wetherbee, R.; Quirk, H. M. (1982). "The fine structure of secondary pit connection formation between the red algal alloparasite Holmsella australis and its red algal host Gracilaria furcellata". Protoplasma 110: 166. doi:10.1007/BF01283319.  edit