Results 181 to 190 of about 8,781 (212)

Macroecology of Microbes – Biogeography of the Glomeromycota

2008
Arbuscular mycorrhizal (AM) fungi are among the most abundant soil microorganisms, associating with 95% of plant families and occurring on all continents of the globe (Smith and Read 1997; Trappe 1987; Read 1991). All AM fungi are members of the newly created phylum Glomeromycota (Schuβler 2001).
V. B. Chaudhary, M. K. Lau, N. C. Johnson   +2 more
openaire   +1 more source

Repetitive DNA sequences include retrotransposons in genomes of the Glomeromycota

Genetica, 2006
Twenty-five repetitive elements are first described in the genomes of the arbuscular mycorrhizal (AM) fungi Gigaspora margarita, Gig. rosea and Glomus mosseae. Nineteen repetitive DNA sequences isolated by genomic library screening and four by self-priming PCR had no homology to known DNA sequences, except for two Gig.
Armelle, Gollotte, Floriane, L'Haridon, Odile, Chatagnier, Guillaume, Wettstein, Christine, Arnould, Diederik, van Tuinen, Vivienne, Gianinazzi-Pearson   +6 more
openaire   +2 more sources

Fine endophytes (Glomus tenue) are related to Mucoromycotina, not Glomeromycota

New Phytologist, 2016
Fine endophytes (FE), Glomus tenue, are traditionally considered to be arbuscular mycorrhizal fungi (AMF) with distinctive microscopic morphology when stained. FE have fine hyphae (c. 1.5 lm diameter) which branch intra-cellularly in a distinctive fan-like pattern (Gianinazzi-Pearson et al., 1981; Abbott, 1982). The hyphae contain small swellings along
Orchard, S., Hilton, S., Bending, G.D., Dickie, I.A., Standish, R.J., Gleeson, D.B., Jeffery, R.P., Powell, J.R., Walker, C., Bass, D., Monk, J., Simonin, A., Ryan, M.H.   +12 more
openaire   +3 more sources

Patterns of diversity and adaptation in Glomeromycota from three prairie grasslands

Molecular Ecology, 2013
AbstractArbuscular mycorrhizal (AM) fungi are widespread root symbionts that often improve the fitness of their plant hosts. We tested whether local adaptation in mycorrhizal symbioses would shape the community structure of these root symbionts in a way that maximizes their symbiotic functioning.
Ji, Baoming, Gehring, Catherine A., Wilson, Gail W., Miller, Ryan M., Flores-Renteria, Lluvia (R17984), Johnson, Nancy C.   +5 more
openaire   +3 more sources

Phylogenetic analysis of the Glomeromycota by partial β-tubulin gene sequences

Mycorrhiza, 2008
The 3' end of the beta-tubulin gene was amplified from 50 isolates of 45 species in Glomeromycota. The analyses included a representative selection of all families except Pacisporaceae and Geosiphonaceae. Phylogenetic analyses excluded three intron regions at the same relative positions in all species due to sequence and length polymorphisms.
Zola, Msiska, Joseph B, Morton
exaly   +3 more sources

How the Genome Is Organized in the Glomeromycota

2014
Arbuscular mycorrhizal (AM) fungi (phylum Glomeromycota) are one of the most important yet least understood groups of soil microorganisms. This chapter discusses recent findings concerning the genome structure in Glomeromycota in the context of the evolutionary theory predictions.
openaire   +1 more source

7 Evolution of the ‘Plant-Symbiotic’ Fungal Phylum, Glomeromycota

2011
The most widespread and prominent symbiosis between land plants and fungi is the arbuscular mycorrhiza (AM). This type of mycorrhiza symbiosis is formed between approximately 80% of land plants and a monophyletic group of obligate symbiotic, multikaryotic and asexual fungi, the Glomeromycota. Despite the enormous ecological and economical importance of
Arthur Schüßler, Christopher Walker
openaire   +1 more source

Glomeromycota rRNA genes?the diversity of myths?

Mycorrhiza, 2003
A, Schüssler, D, Schwarzott, C, Walker
openaire   +2 more sources

Janusz Błaszkowski (ed) - Glomeromycota

Mycorrhiza, 2013
openaire   +2 more sources

Glomeromycota

2015
Thomas N. Taylor, Michael Krings, Edith L. Taylor   +2 more
openaire   +1 more source