Search Results - "Mathew, M. Abang"

Characterization of cucumber vein-clearing virus, a whitefly (Bemisia tabaci G.)-transmitted carlavirus by Menzel, Wulf, Abang, Mathew M., Winter, Stephan

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The draft genome sequence of Xanthomonas species strain Nyagatare, isolated from diseased bean in Rwanda by Aritua, Valente, Musoni, Augustine, Kabeja, Alice, Butare, Louis, Mukamuhirwa, Floride, Gahakwa, Daphrose, Kato, Fred, Abang, Mathew M., Buruchara, Robin, Sapp, Melanie, Harrison, James, Studholme, David J., Smith, Julian

“…We announce the genome sequence for Xanthomonas species strain Nyagatare, isolated from beans showing unusual disease symptoms in Rwanda. This strain…”
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Survey of chocolate spot ( Botrytis fabae) disease of faba bean ( Vicia faba L.) and assessment of factors influencing disease epidemics in northern Ethiopia by Sahile, Samuel, Ahmed, Seid, Fininsa, Chemeda, Abang, Mathew M., Sakhuja, Parshotam K.

“…Field surveys were conducted in northern Ethiopia during the 2004 and 2005 cropping seasons to determine the distribution of chocolate spot ( Botrytis fabae)…”
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Pathogenic and genetic diversity of Didymella rabiei affecting chickpea in Syria by Atik, Omar, Ahmed, Seid, Abang, Mathew M., Imtiaz, Muhammad, Hamwieh, Aladdin, Baum, Michael, El-Ahmed, Ahmed, Murad, Samer, Yabrak, Mohammad M.

“…Simple sequence repeats and mating type markers were used to estimate the genetic diversity of 133 Didymella rabiei isolates collected from nine provinces of…”
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Farmers' knowledge of crop diseases and control strategies in the Regional State of Tigrai, northern Ethiopia: implications for farmer-researcher collaboration in disease management by Kiros-Meles, Ayimut, Abang, Mathew M

“…Differences in perceptions and knowledge of crop diseases constitute a major obstacle in farmer-researcher cooperation, which is necessary for sustainable…”
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Differential Selection on Rhynchosporium secalis During Parasitic and Saprophytic Phases in the Barley Scald Disease Cycle by Abang, M.M, Baum, M, Ceccarelli, S, Grando, S, Linde, C.C, Yahyaoui, A, Zhan, J, McDonald, B.A

“…Competition among eight Rhynchosporium secalis isolates was assessed during parasitic and saprophytic phases of the disease cycle in field experiments…”
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Chickpea Ascochyta Blight: Disease Status and Pathogen Mating Type Distribution in Syria by Atik, Omar, Baum, Michael, El-Ahmed, Ahmed, Ahmed, Seid, Abang, Mathew M., Yabrak, Mohammad M., Murad, Samer, Kabbabeh, Siham, Hamwieh, Aladdin

“…Chickpea fields were surveyed in nine major chickpea‐growing provinces of Syria in 2008 and 2009 to determine the prevalence and severity of Ascochyta blight,…”
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True yams (Dioscorea): a biological and evolutionary link between eudicots and grasses by Mignouna, Hodeba D, Abang, Mathew M, Asiedu, Robert, Geeta, R

“…Dioscorea (true yams) is a large genus that contains species important as food (with edible tubers) or as sources of bioactive substances used in a range of…”
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Delivery of Agricultural Technology to Resource-poor Farmers in Africa by Mignouna, Hodeba D., Abang, Mathew M., Omanya, Gospel, Nang'ayo, Francis, Bokanga, Mpoko, Boadi, Richard, Muchiri, Nancy, Terry, Eugene

“…Recent developments in agricultural science and technology have the potential to transform the agricultural sector in the developing world. These technological…”
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Seed-borne pathogens detected in consignments of cereal seeds received by the International Center for Agricultural Research in the Dry Areas (ICARDA), Syria by Asaad, Siham, Abang, Mathew M

“…During 1995-2004, the Seed Health Laboratory at the International Center for Agricultural Research in the Dry Areas (ICARDA), Aleppo, Syria, tested all…”
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Genetic diversity of Rhynchosporium secalis in Tunisia as revealed by pathotype, AFLP, and microsatellite analyses by Bouajila, Aida, Abang, Mathew M, Haouas, Samira, Udupa, Sripada, Rezgui, Salah, Baum, Michael, Yahyaoui, Amor

“…Genetic variability among 122 Rhynchosporium secalis isolates collected from barley in three regions of Tunisia was investigated using host differentials,…”
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Post-flask management of yam (Dioscorea) plantlets by Mignouna, Hodeba D, Abang, Mathew M, Asiedu, Robert, Geeta, R

“…This protocol describes how to harden or acclimatize tissue culture-derived yam (Dioscorea) plantlets before transplanting them in the soil. Briefly, the…”
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Producing yam (Dioscorea) seeds through controlled crosses by Mignouna, Hodeba D, Abang, Mathew M, Asiedu, Robert, Geeta, R

“…This protocol describes how to produce yam (Dioscorea) seeds through controlled pollination of flowers on female plants. Pollination by flower thrips takes…”
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Extraction of DNA from yam (Dioscorea) leaves by Mignouna, Hodeba D, Abang, Mathew M, Asiedu, Robert, Geeta, R

“…This protocol describes how to extract DNA from the leaves of true yams (Dioscorea) for polymerase chain reaction (PCR) and other analyses…”
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Culturing meristematic tissue and node cuttings from yams (Dioscorea) by Mignouna, Hodeba D, Abang, Mathew M, Asiedu, Robert, Geeta, R

“…This protocol describes how to produce whole yam (Dioscorea) plantlets in vitro through yam meristem culture and from yam node cuttings…”
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Yam (Dioscorea) husbandry: cultivating yams in the field or greenhouse by Mignouna, Hodeba D, Abang, Mathew M, Asiedu, Robert, Geeta, R

“…This protocol describes how to cultivate yams (Dioscorea) in the field or greenhouse. It refers especially to the tropical food species but it will also work…”
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Harnessing modern biotechnology for tropical tuber crop improvement: Yam (Dioscorea spp.) molecular breeding by Hodeba, D. Mignouna, Mathew, M. Abang, Robert, Asiedu

“…Yams (Dioscorea spp.) constitute a staple food crop for over 100 million people in the humid and subhumid tropics. They are polyploid and vegetatively…”
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Secondary metabolite profile and phytotoxic activity of genetically distinct forms of Colletotrichum gloeosporioides from yam ( Dioscorea spp.) by Abang, Mathew M., Abraham, Wolf-Rainer, Asiedu, Robert, Hoffmann, Peter, Wolf, Gerhard, Winter, Stephan

“…Highly virulent, slow-growing grey (SGG); moderately virulent, fast-growing salmon (FGS); and avirulent/weakly virulent, fast-growing grey (FGG) forms of…”
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Colletotrichum circinans and Colletotrichum coccodes can be distinguished by DGGE analysis of PCR-amplified 18S rDNA fragments by Olajire, Fagbola+, Mathew, M. Abang

“…The rDNA 18S region of Colletotrichum circinans and C. coccodes was amplified by PCR to evaluate this DNA region as a tool for species delineation. PCR…”
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Molecular taxonomic, epidemiological and population genetic approaches to understanding yam anthracnose disease by Mathew, M. Abang, Stephan, Winter, Hodeba, D. Mignouna, Kim, R. Green, Robert, Asiedu

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