Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by Crossref.
Cheng, Yan Fen
Jin, Wei
Mao, Sheng Yong
and
Zhu, Wei-Yun
1970.
Production of Citrate by Anaerobic Fungi in the Presence of Co-culture Methanogens as Revealed by 1H NMR Spectrometry.
Asian-Australasian Journal of Animal Sciences,
Vol. 26,
Issue. 10,
p.
1416.
Frazer, Lilyann Novak
1997.
One stop mycology.
Mycological Research,
Vol. 101,
Issue. 6,
p.
745.
Chen, Huizhong
Li, Xin-Liang
Blum, David L
and
Ljungdahl, Lars G
1998.
Two genes of the anaerobic fungusOrpinomycessp. strain PC-2 encoding cellulases with endoglucanase activities may have arisen by gene duplication.
FEMS Microbiology Letters,
Vol. 159,
Issue. 1,
p.
63.
Nicholson, Matthew J.
Theodorou, Michael K.
and
Brookman, Jayne L.
2005.
Molecular analysis of the anaerobic rumen fungus Orpinomyces – insights into an AT-rich genome.
Microbiology
,
Vol. 151,
Issue. 1,
p.
121.
Michaiowski, T.
2005.
Microbial Ecology in Growing Animals.
Vol. 2,
Issue. ,
p.
54.
Edwards, J.E.
Huws, S.A.
Kim, E.J.
Lee, M.R.F.
Kingston-Smith, A.H.
and
Scollan, N.D.
2008.
Advances in microbial ecosystem concepts and their consequences for ruminant agriculture.
Animal,
Vol. 2,
Issue. 5,
p.
653.
Sridhar, M.
Kumar, D.
Anandan, S.
Prasad, C.S.
and
Sampath, K.T.
2010.
Morphological and Molecular Characterization of Polycentric Rumen Fungi Belonging to the Genus Orpinomyces Isolated from Indian Cattle and Buffaloes.
Research Journal of Microbiology,
Vol. 5,
Issue. 7,
p.
581.
Jin, Wei
Cheng, Yan-Fen
Mao, Sheng-Yong
and
Zhu, Wei-Yun
2011.
Isolation of natural cultures of anaerobic fungi and indigenously associated methanogens from herbivores and their bioconversion of lignocellulosic materials to methane.
Bioresource Technology,
Vol. 102,
Issue. 17,
p.
7925.
Belanche, Alejandro
Doreau, Michel
Edwards, Joan E.
Moorby, Jon M.
Pinloche, Eric
and
Newbold, Charles J.
2012.
Shifts in the Rumen Microbiota Due to the Type of Carbohydrate and Level of Protein Ingested by Dairy Cattle Are Associated with Changes in Rumen Fermentation.
The Journal of Nutrition,
Vol. 142,
Issue. 9,
p.
1684.
Sirohi, Sunil K.
Choudhury, Prasanta K.
Dagar, Sumit S.
Puniya, Anil K.
and
Singh, Dheer
2013.
Isolation, characterization and fibre degradation potential of anaerobic rumen fungi from cattle.
Annals of Microbiology,
Vol. 63,
Issue. 3,
p.
1187.
Gruninger, Robert J.
Puniya, Anil K.
Callaghan, Tony M.
Edwards, Joan E.
Youssef, Noha
Dagar, Sumit S.
Fliegerova, Katerina
Griffith, Gareth W.
Forster, Robert
Tsang, Adrian
McAllister, Tim
and
Elshahed, Mostafa S.
2014.
Anaerobic fungi (phylumNeocallimastigomycota): advances in understanding their taxonomy, life cycle, ecology, role and biotechnological potential.
FEMS Microbiology Ecology,
Vol. 90,
Issue. 1,
p.
1.
Piao, Hailan
Lachman, Medora
Malfatti, Stephanie
Sczyrba, Alexander
Knierim, Bernhard
Auer, Manfred
Tringe, Susannah G.
Mackie, Roderick I.
Yeoman, Carl J.
and
Hess, Matthias
2014.
Temporal dynamics of fibrolytic and methanogenic rumen microorganisms during in situ incubation of switchgrass determined by 16S rRNA gene profiling.
Frontiers in Microbiology,
Vol. 5,
Issue. ,
Haitjema, Charles H.
Solomon, Kevin V.
Henske, John K.
Theodorou, Michael K.
and
O'Malley, Michelle A.
2014.
Anaerobic gut fungi: Advances in isolation, culture, and cellulolytic enzyme discovery for biofuel production.
Biotechnology and Bioengineering,
Vol. 111,
Issue. 8,
p.
1471.
Choudhury, Prasanta Kumar
Salem, Abdelfattah Zeidan Mohamed
Jena, Rajashree
Kumar, Sanjeev
Singh, Rameshwar
and
Puniya, Anil Kumar
2015.
Rumen Microbiology: From Evolution to Revolution.
p.
3.
Glass, N. Louise
2016.
The Enigmatic Universe of the Herbivore Gut.
Trends in Biochemical Sciences,
Vol. 41,
Issue. 7,
p.
561.
Solomon, Kevin V.
Haitjema, Charles H.
Henske, John K.
Gilmore, Sean P.
Borges-Rivera, Diego
Lipzen, Anna
Brewer, Heather M.
Purvine, Samuel O.
Wright, Aaron T.
Theodorou, Michael K.
Grigoriev, Igor V.
Regev, Aviv
Thompson, Dawn A.
and
O’Malley, Michelle A.
2016.
Early-branching gut fungi possess a large, comprehensive array of biomass-degrading enzymes.
Science,
Vol. 351,
Issue. 6278,
p.
1192.
Ivarsson, Magnus
Schnürer, Anna
Bengtson, Stefan
and
Neubeck, Anna
2016.
Anaerobic Fungi: A Potential Source of Biological H2 in the Oceanic Crust.
Frontiers in Microbiology,
Vol. 7,
Issue. ,
Seppälä, Susanna
Solomon, Kevin V.
Gilmore, Sean P.
Henske, John K.
and
O’Malley, Michelle A.
2016.
Mapping the membrane proteome of anaerobic gut fungi identifies a wealth of carbohydrate binding proteins and transporters.
Microbial Cell Factories,
Vol. 15,
Issue. 1,
Edwards, Joan E.
Forster, Robert J.
Callaghan, Tony M.
Dollhofer, Veronika
Dagar, Sumit S.
Cheng, Yanfen
Chang, Jongsoo
Kittelmann, Sandra
Fliegerova, Katerina
Puniya, Anil K.
Henske, John K.
Gilmore, Sean P.
O'Malley, Michelle A.
Griffith, Gareth W.
and
Smidt, Hauke
2017.
PCR and Omics Based Techniques to Study the Diversity, Ecology and Biology of Anaerobic Fungi: Insights, Challenges and Opportunities.
Frontiers in Microbiology,
Vol. 8,
Issue. ,
Romagnoli, Emiliana Manesco
Kmit, Maria Carolina Pezzo
Chiaramonte, Josiane Barros
Rossmann, Maike
and
Mendes, Rodrigo
2017.
Diversity and Benefits of Microorganisms from the Tropics.
p.
367.