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Review Article

Emerging phytopathogen Macrophomina phaseolina: biology, economic importance and current diagnostic trends

Surinder Kaur
,
Gurpreet Singh DhillonDepartment of Mycology & Plant Pathology, Institute of Agricultural Sciences, Banaras Hindu University (BHU), Varanasi, India
,
Satinder Kaur BrarDepartment of Mycology & Plant Pathology, Institute of Agricultural Sciences, Banaras Hindu University (BHU), Varanasi, IndiaCorrespondence[email protected]
,
Gary Edward ValladUniversity of Florida, Wimauma, United States
,
Ramesh ChandDepartment of Mycology & Plant Pathology, Institute of Agricultural Sciences, Banaras Hindu University (BHU), Varanasi, India
&
Vijay Bahadur ChauhanDepartment of Mycology & Plant Pathology, Institute of Agricultural Sciences, Banaras Hindu University (BHU), Varanasi, India
Pages 136-151 | Received 17 Jul 2011, Accepted 11 Nov 2011, Published online: 19 Jan 2012

References

  • Abawi GS, Pastor-Corrales MA. (1990). Root rot of beans in Latin America and Africa: Diagnosis, research methodologies and management strategies. Cali: Centro International de Agricultura Tropical.
  • Abdel-Kader MM, El-Mougy NS, Aly MDEH, Lashin SM. (2010). First report of Ashy stem blight caused by Macrophomina phaseolina on Aeonium canariense in Egypt. J Plant Pathol Microbiol, 1, 101.
  • Adam T. (1986). Contribution à la connaissance des maladies du niébé (Vigna unguiculata (L.) Walp.) au Niger avec mention spéciale au Macrophomina phaseolina (Tassi) Goïd. Université de Renne I. Thèse de doctorat. 117.
  • Ahmed N, Ahmed QA. (1969). Physiologic specialization in Macrophomina phaseoli (Maubl).Ashby, causing stem rot of jute, Corchorus species. Mycopathol, 39, 129–138.
  • Alabouvette C.. (1990). Biological control of Fusarium wilts pathogens in suppressive soils. In: D Hornby (ed.), Biological control of soilborne plant pathogens. CAB International Wallingford, UK pp. 27–43.
  • Almeida AMR, Abdelnoor RV, Arias CAA, Carvalho VP, Jacoud- Filho DS, Marin SRR, Benato LC, Pinto MC, Carvalho CGP. (2003). Genotypic diversity among Brazilian isolates of Macrophomina phaseolina revealed by RAPD. Fitopatol Bras, 28, 279–285.
  • Alvaro MRA, Ricardo VA, Carlos AAA, Valdemar PC, David SJF, Silvana RRM, Luis CB, Mauro CP, Claudio GPC (2003). Genotypic diversity among Brazilian isolates of Macrophomina phaseolina revealed by RAPD. Fitopatol Brasil, 28, 279–285.
  • Amadioha AC. (2000). The production and activity of extracellular amylase by Rhizoctonia bataticola. Archives Phytopathol Plant Protec, 33, 1, 1–9.
  • Ammon V, Wyllie TD. (1972). Penetration and host-parasite relationships of Macrophomina phaseolina on Glycine max. Phytopathol (Abstr), 62, 743–744.
  • Arora P, Dilbaghi N, Chaudhury A (2011). Opportunistic invasive fungal pathogen Macrophomina phaseolina prognosis from immunocompromised humans to potential mitogenic RBL with an exceptional and novel antitumor and cytotoxic effect. Eur J Clin Microbiol Infect Dis, DOI 10.1007/s10096-011-1275-1.
  • Ashby SF. (1927). Macrophomina phaseolina (Maubl.) Comb. Nov. The pycnidial stage of Rhizoctonia bataticola (Taub.). Butl. Trans Br Mycol Soc, 12, 141–147.
  • Aviles M, Castillo S, Bascon J, Zea-Bonilla T, Martin-Sanchez PM, Perez-Jimenez RM. (2008). First report of Macrophomina phaseolina causing crown and root rot of strawberry in Spain. Plant Pathol, 57, 2, 382–383.
  • Babu BK, Srivastava AK, Saxena AK, Arora DK. (2007). Identification and detection of Macrophomina phaseolina by using species-specific oligonucleotide primers and probe. Mycol, 99, 733–739.
  • Babu BK, Mesapogu S, Sharma A, Somasani SR, Arora DK. (2011). Quantitative real-time PCR assay for rapid detection of plant and human pathogenic Macrophomina phaseolina from field and environmental samples. Mycologia, 103, 466–473.
  • Baino O, Salazar SM, Ramallo AC, Kirschbaum DS. (2011). First report of Macrophomina phaseolina causing strawberry crown and root rot in northwestern Argentina. DOI: 10.1094/PDIS-03-11-0193.
  • Baird RE, Bell DK, Sumner DK, Mullinix BG, Culbreath AK. (1993). Survival of Rhizoctonia solani AG-4 in residual peanut shells in soil. Plant Dis, 77, 973–975.
  • Baird RE, Hershman EE, Christmas EP. (1994). Occurrence of Macrophomina phaseolina on canola in Indiana and Kentucky. Plant Dis, 78, 316.
  • Baird RR, Brock JH. (1999). First report of Macrophomina phaseolina on cotton (Gossypium hirsutum). Plant Dis, 83, 5, 487.
  • Baird RE, Watson CE, Scruggs M. (2003). Relative longevity of Macrophomina phaseolina and associated mycobiota on residual soybean roots in soil. Plant Dis, 87, 563–566.
  • Baird RE, Wadl PA, Wang X, Johnson DH, Rinehart TA, Abbas HK, Shier T, Trigiano RN. (2009). Microsatellites from the charcoal rot fungus (Macrophomina phaseolina). Mol Ecol Resour, 9, 946–948.
  • Ballio A. (1991). Non-host selective fungal phytotoxins: Biochemical aspects of their mode of action. Experientia, 47, 783–790.
  • Baudry A, Morzieres JP. (1993). First report of charcoal rot of strawberry in France. Acta Hort (ISHS), 348, 485–488.
  • Beas-Fernandez R, De Santiago A, Hernandez-Delgado S, Mayek-Perez N. (2006). Characterization of Mexican and non-Mexican isolates of Macrophomina phaseolina based on morphological characteristics, pathogenicity on bean seeds and endoglucanase genes. J Plant Pathol, 88, 53–60.
  • Berestetskiy AO. (2008). A review of fungal phytotoxins: from basic studies to practical use. Appl Biochem Microbiol, 44, 5, 453–465.
  • Bhattacharya D, Dhar TK, Siddiqui KAI, Ali E. (1994). Inhibition of seed germination by Macrophomina phaseolina is related to phaseolinone production. J Appl Bacteriol, 77, 2, 129–133.
  • Bhattacharya D, Siddiqui KAI, Ali E. (1992). Phytotoxic metabolites of Macrophomina phaseolina. Ind J Mycol Plant Pathol, 22, 54–57.
  • Bhattacharya G, Dhar TK, Bhattacharyya FK, Siddiqui KA. (1987). Mutagenic action of phaseolinone, a mycotoxin isolated from Macrophomina phaseolina. Aust J Biol Sci, 40, 349–353.
  • Bilgrami KS, Jamaluddin Rizvi, MA. (1979). The fungi of India. Part I. New Delhi, India: Today and Tomorrow’s Printers and Publishers.
  • Bokor P. (2007). Macrophomina phaseolina causing a charcoal rot of sunflower through Slovakia. Biologia, 62, 2, 136–138.
  • Bouhot D. (1967). Etude du Macrophomina phaseoli sur arachide. Agr Tropic, 22, 1165–1171.
  • Boulila M, Mahjoub M. (1994). Inventory of olive disease in Tunisia. Bulletin-OEPP, 31, 111–112.
  • Bowers GR, Russin JS. (1999). Soybean disease management. In Soybean production in the mid-south (LG Heatherly,and HF Hodges eds). Boca Raton, FL: CRC Press.
  • Bradley CA, Del Rio LE. (2003). First report of charcoal rot on soybean caused by Macrophomina phaseolina in North Dakota. Plant Dis, 87, 5, 601.
  • Bruton BD. (1997). Occurrence of vine decline diseases of melons in Honduras. Dis Notes, 81, 6, 696.
  • Butin H, Peredo HL. (1986). Fungal parasitism in Cuneo – America del Sur shalt con especial referencia a Chile. Berlin, Germany: J. Cramer.
  • Campbell CL, Van der Gaag DJ. (1993). Temporal and spatial dynamics of microsclerotia of Macrophomina phaseolina in three fields in North Carolina over four to five years. Phytopathol, 83, 1434–1440.
  • Carlile MJ. (1986). Genetic exchange and gene flow: Their promotion and prevention. In: ADM, Rayner, CM, Brasier D Moore (eds.) Evolutionary biological of the fungi. Cambridge, UK: Cambridge University Press, pp. 203–214.
  • Carpita NC, Gibeaut DM. (1993). Structural models of primary cell walls in flowering plants: consistency of molecular structure with the physical properties of the walls during growth. Plant J, 3, 1–30.
  • Chandra S, Kheri HS, Maheshwari S. (1995). Macrophomina dry root rot of leguminous crops and its management through VAM pesticides. Detection of plant pathogens and their management (JP Verma A, Verma, D Kumar eds.) New Delhi, India: Angkor Publishers, pp. 357–364.
  • Cook GE, Boosalis MG, Dunkle JD, Odvody GN. (1973). Survival of Macrophomina phaseolina in corn and sorghum stalk residues. Plant Dis Rep, 57, 873–875.
  • Crous PW, Slippers B, Wingfield MJ, Rheeder J, Marasas WF, Philips AJ, Alves A, Burgess T, Barber P, Groenewald JZ. (2006). Phylogenetic lineages in the Botryosphaeriaceae. Stud Mycol, 55, 235–253.
  • Das IK, Fakrudin B, Arora DK. (2008). RAPD cluster analysis and chlorate sensitivity of some Indian isolates of Macrophomina phaseolina from sorghum and their relationships with pathogenicity. Microbiol Res, 163, 215–224.
  • Dhar TK, Siddiqui KAI, Ali E. (1982). Structure of phaseolinone, a novel phytotoxin from Macrophomina phaseolina. Tetrahedron Lett, 23, 5, 5459–5462.
  • Dhingra OD, Sinclair JB. (1972). Variation among isolates of Macrophomina phaseoli (Rhizoctonia bataticola) from the same soybean plant. (Abstr.) Phytopathol, 62, S1108.
  • Dhingra OD, Sinclair JB. (1975). Survival of Macrophomina phaseolina sclerotia in soil: Effect of soil moisture, carbon: nitrogen ratio, carbon sources, and nitrogen concentrations. Phytopathol, 65, 236–240.
  • Dhingra OD, Sinclair JB. (1977). An annotated bibliography of Macrophomina phaseoli, 1905–1975. Universidade Federal Viçosa, Viçosa, Brazil. pp. 277.
  • Dhingra OD, Sinclair JB. (1978). Biology and pathology of Macrophomina phaseolina. (D Dhingra, JB Sinclair, eds.). Minas Gerais: Universidade Federal De Vicosa.
  • Diourte, M, Starr JL, Jeger MJ, Stack JP, Rosenow DT. (1995). Charcoal rot (Macrophomina phaseolina) resistance and the effects of water stress on disease development in sorghum. Plant Pathol44, 1, 196–202.
  • Dutech C, Enjalbert J, Fournier E, Delmotte F, Barrès B, Carlier J, Tharreau D, Giraud T. (2007). Challenges of microsatellite isolation in fungi. Fungal Genet Biol, 44, 933–949.
  • Dwivedi AK, Singh T, Singh D. (1994). Histopathology of garlic bulbs infected with Rhizoctonia bataticola. Phytomorphol, 44, 3–4.
  • Dwivedi SK. (1990). Guava wilt incited by Macrophomina phaseolina. National Acad. Sci. Lett, 13, 8, 301–303.
  • Echavez-Badel R, Perdomo A. (1991). Characterization and comparative pathogenicity of two Macrophomina phaseolina isolates from Puerto Rico. J Agri Univ Puerto Rico, 75, 419–421.
  • ElAraby ME, Kurle JE. (2003). First report of charcoal rot (Macrophomina phaseolina) on soybean in Minnesota. Disease Notes, 87, 2, 202.
  • Etebarian HR. (2006). Evaluation of Streptomyces strain for biological control of charcoal stem rot of melon caused by Macrophomina phaseolina. Plant Pathol J, 5, 1, 83–87.
  • Farr DF, Rossman AY.. (2010). Fungal Databases, Systematic Mycology and Microbiology Laboratory, ARS, USDA. Available at: nt.ars-grin.gov/fungaldatabases.
  • Fujimoto Y, Kamiya M, Tsunoda H, Ohtsubo K, Tatsuno T. (1980). Toxicological study on the metabolites of Penicillium carneolutescens. Chem Pharm Bull, 28, 1062–1066.
  • Fuska J, Kuhr I, Nemec P, Fusková A. (1974). Antitumor antibiotics produced by Penicillium stipitatum Thom. J Antibiot, 27, 123–127.
  • Gaetan SA, Fernandez L, Madia M. (2006). Occurrence of charcoal rot caused by Macrophomina phaseolina on canola in Argentina. Plant Dis, 90, 524.
  • Gangopadhyay S, Agarwal DK, Sarbhoy AK, Wadhi SR. (1973). Charcoal rot disease of soybean in India. Indian Phytopath, 26, 730–732.
  • Garrett RH, Amy NK. (1978). Nitrate assimilation in fungi. Adv Microb Physiol, 18, 1–65.
  • Georgiou CD, Patsoukis N, Papapostolou I, Zervoudakis G. (2006). Sclerotial metamorphosis in filamentous fungi is induced by oxidative stress. Integr Comp Biol, 46, 691–712.
  • Georgiou CD, Zervoudakis G, Petropoulou KP. (2003). Ascorbic acid might play a role in the sclerotial differentiation of Sclerotium rolfsii. Mycologia, 95, 308–316.
  • Ghaffar A, Akhtar P. (1968). Survival of Macrophomina phaseolina (Maubl.) Ashby on cucurbit roots. Mycopathol Mycol Appl, 35, 245–248.
  • Ghoneim SSH, Abdel-Massih MI, Mahmoud FAF. (1996). Interaction between root-knot nematode and root rot on olive trees. Annals of Agri Sci, 41, 445–461.
  • Gilkes NR, Henrissat B, Kilburn DG, Miller RC Jr, Warren RA. (1991). Domains in microbial beta-1, 4-glycanases: sequence conservation, function, and enzyme families. Microbiol Rev, 55, 303–315.
  • Goidanich G. (1947). A revision of the genus Macrophomina Petrak. type species: M.P. (Tassi) G. Goid. n. comb. M. P. (Maubl.) Ashby. Ann. Sper. Agr. N S I, 3, 449–461.
  • Gray FA, Kolp BJ, Mohamed MA. (1990). A disease survey of crops grown in the Bay Region of Somalia, East Africa. FAO Plant Prot Bult, 38, 39–47.
  • Gray FA, Mihail JD, Lavigne RJ, Porter PM. (1991). Incidence of charcoal rot of sorghum and soil populations of Macrophomina phaseolina associated with sorghum and native vegetation in Somalia. Mycopathol, 114, 145–151.
  • Gulya TJ, Krupinsky J, Draper M, Charlet LD. (2002). First report of charcoal rot (Macrophomina phaseolina) on sunflower in North and South Dakota. Plant Dis, 86, 8, 923–923.
  • Gupta RS, Chandran RR, Divekar PV.. (1966). Botryodiplodin, a new antibiotic from Botryodiplodia theobromae Pat. production, isolation and biological properties. Indian J Exp Biol, 4, 152–153.
  • Hadar Y, Pines M, Chet I, Henis Y. (1983). The regulation of sclerotium initiation in Sclerotium rolfsii by glucose and cyclic AMP. Can J Microbiol, 29, 21–26.
  • Halsted BD. (1890). Some fungous diseases of the sweetpotato. New Jersey Agricultural Exp Station Bull, 76.
  • Hatfield RD, Nevins DJ. (1987). Hydrolytic Activity and Substrate Specificity of an Endoglucanase from Zea mays Seedling Cell Walls. Plant Physiol, 83, 203–207.
  • Heiler S, Mendgen K, Deising H. (1993). Cellulolytic enzymes of the obligately biotrophic rust fungus Uromyces viciae-fabae are regulated differentiation – specifically. Mycol Res, 97, 77–85.
  • Holliday P, Punithalingam E. (1970). CMI descriptions of pathogenic fungi and bacteria No. 275. Kew, Surrey, UK: Commonwealth Mycological Institute.
  • Ilyas MB, Sinclair JB. (1974). Effects of plant age upon development of necrosis and occurence of intraxylem sclerotia in soybean infected with Macrophomina phaseolina. Phytopathol, 64, 156–157.
  • Iriarte F, Rosskopf E, Hilf M, McCollum G, Albano J, Adkins S. (2007). First report of Macrophomina phaseolina causing leaf and stem blight of tropical soda apple in Florida. Online Plant Health Prog. DOI: 10.1094/PHP-2007-1115-01-BR.
  • Jana T, Sharma TR, Prasad RD, Arora DK. (2003). Molecular characterization of Macrophomina phaseolina and Fusarium species by a single primer RAPD technique. Microbiol Res, 158, 249–257.
  • Jana T, Sharma TR, Singh NK. (2005a). SSR-based detection of genetic variability in the charcoal root rot pathogen Macrophomina phaseolina. Mycol Res, 109, 81–86.
  • Jana TK, Singh NK, Koundal KR, Sharma TR. (2005b). Genetic differentiation of charcoal rot pathogen, Macrophomina phaseolina, into specific groups using URP-PCR. Can J Microbiol, 51, 159–164.
  • Jhooty JS, Brains SS. (1972). Evaluation of different systemic and non-systemic fungicides for the control of damping-off of moong (Phaseolus aureus) caused by Rhizoctonia solani. Ind Phytpathol, 25, 509–512.
  • Jones RW, Wang HY. (1997). Immunolocalization of a beta-1,4-endoglucanase from Macrophomina phaseolina expressed in planta. Can J Microbiol, 43, 491–495.
  • Kamalakannan A, Mohan L, Valluvaparidasan V, Mareeswari P, Karuppiah R. (2006). First report of Macrophomina root rot (Macrophomina phaseolina) on medicinal coleus (Coleus forskohlii) in India. Plant Path, 55, 302.
  • Karadimos DA, Karaoglanidis GS, Klonari K. (2002). First report of charcoal rot of sugarbeet caused by Macrophomina phaseolina in Greece. Plant Dis, 86, 9, 1051.
  • Kaur S, Dhillon GS, Brar SK, Chauhan VB. (2011). Carbohydrate degrading enzyme production by plant pathogenic mycelia and microsclerotia isolates of Macrophomina phaseolina through koji fermentation. Indus Crop Pro, 36, 140–148.
  • Khangura R, Aberra M. (2009). First report of charcoal rot on canola caused by Macrophomina phaseolina in Western Australia. Plant Dis, 93, 6, 666.
  • Kitahara T, Kiyota H, Kurata H, Mori K. (1991). Synthesis of oxygenated eremophilanes, gigantenone, phomenone and phaseolinone, phytotoxins from pathogenic fungi. Tetrahedron, 47, 9, 649–654.
  • Knox-Davies PS. (1966). Further studies on pycnidium production by Macrophomina phaseoli. South Afri J Agri Sci, 9, 595–600.
  • Koike ST. (2008). Crown rot of strawberry caused by Macrophomina phaseolina in California. Plant Dis, 92, 8, 1253.
  • Koike ST, Daugovish O, Ajwa H, Bolda DM, Legard D (2009–2010). UCCE Projects Reports. California strawberry commission annual production research report.
  • Kuti JO, Schading RL, Latigo GV, Braford JM. (1997). Differential responses of guayule (Parthenium argentatum Gray) genotypes to culture filtrate and toxin from Macrophomina phaseolina (Tassi) Goidanich. J Phytopathol, 145, 305–311.
  • Leach LD, Garber RH. (1970). Control of Rhizoctonia. In: R Parmeter Jr. (ed.), Rhizoctonia solani, biology and pathology. San Diego: University of California Press, pp. 189–198.
  • Machado C. (1987). Macrophomina phaseolina: biological behavior of isolates, spatial pattern of microsclerotia in the soil, and incidence on soybeans. PhD dissertation, University of Illinois, Urbana.
  • Mahato SB, Siddiqui KAI, Bhattacharya G, Ghosa T, Miyahara K, Sholichin M, Kawasaki T. (1987). Structure and stereochemistry of phaseolinic acid: A new acid from Macrophomina phaseolina. J Nat Prod, 50, 245–247.
  • Mahmoud AFA, Budak H. (2011). First report of charcoal rot caused by Macrophomina phaseolina in sunflower in Turkey. Plant Disease, 95, 2, 223–223.
  • Maiti S, Hedge MR, Chattopadhyra SB. (1988). Handbook of annual oilseed crops. New Delhi, India: Oxford and IBH Publishing.
  • Marzluf GA. (1997). Genetic regulation of nitrogen metabolism in the fungi. Microbiol Mol Biol Rev, 61, 17–32.
  • Masafumi F, Tokiya S, Hidenori O, Hidetake S, Masanobu K, Toyozo S. (2002). Charcoal rot of watermelon newly found in Nagano and Kanagawa prefectures and pathogenicity of causal fungus Macrophomina phaseolina. Annals Phytopathol Soc Japan, 68, 2, 148–152.
  • Maublanc A. (1905). Especes nouvelles de champignons infgrieurs. Bull Soc Mycol France, 21, 90–91.
  • Mayek-Perez N, Lopez-Castaneda C, Acosta-Gallegos JA. (1997). Variacion en caracterısticas culturales in vitro de aislamientos de Macrophomina phaseolina y su virulencia en frijol. Agrociencia, 31, 187–195.
  • Mayek-Perez N, Lopez-Castaneda C, Gonzalez-Chavira M, Garch-Espinosa R, Acosta-Gallegos J, De la Vega OM, Simpson J. (2001). Variability of Mexican isolates of Macrophomina phaseolina based on pathogenesis and AFLP genotype. Physiol Mol Plant Pathol, 59, 257–264.
  • Mayek-Perez N, Garcia-Espinosa R, Lopez-Castaneda C, Acosta-Gallegos JA, Simpson, J. (2002). Water relations, histopathology, and growth of common bean (Phaseolus vulgaris L.) during pathogenesis of Macrophomina phaseolina under drought stress. Physiol Plant Pathol, 60, 185–195.
  • McCain AH, Scharpf RF. (1989). Effect of inoculum density of Macrophomina phaseolina on seedling susceptibility of six conifer species. Eur J For Pathol, 19, 119–123.
  • Mertely J, Seijo T, Peres N. (2005). First report of Macrophomina phaseolina causing a crown rot of strawberry in Florida. Plant Dis, 89, 4, 434.
  • Mihail JD. (1989). Macrophomina phaseolina:Spatio-temporal dynamics of inoculum and of disease in a high susceptible crop. Phytopath, 79, 848–855.
  • Mihail JD, Taylor SJ. (1995). Interpreting variability among isolates of Macrophomina phaseolina in pathogenicity, pycnidium production, and chlorate utilization. Can J Bot, 73, 1596–1603.
  • Moreau S, Lablache-Combier A, Biguet J, Foulon C, Delfosse M. (1982). Botryodiplodin, a mycotoxin synthesized by a strain of Penicillium roqueforti. J Org Chem 47, 2358–2359.
  • Msikita W, James B, Wilkinson HT, Juba JH. (1998). First report of Macrophomina phaseolina causing pre-harvest cassava root rot in Benin and Nigeria. Plant Dis, 82, 12, 1402–1402.
  • Msikita W, Yaninek JS, Ahounou M, Baimey H, Fagbemissi R. (1997). First report of Nattrassia mangiferae root and stem rot of Cassava in West Africa. Dis Notes, 81, 11, 1332.
  • Nakagawa F, Kodama K, Furuya K, Naito A. (1979). New strains of botryodiplodin-producing fungi. Agric Biol Chem, 43, 7, 1597–1598.
  • Noble M, Richardson MJ. (1968). An annotated list of seed borne diseases. Phytopathol Rep, 8, 191.
  • Novotelnova NS. (2005). Diseases of cotton. In: Pavlyushin, VA. ed, Diseases of cultural plants. Saint-Petersburg: ICZR of VIZR p. 81–84. (in Russian).
  • Olaya G, Abawi GS. (1996). Effect of water potential on mycelial growth and on production and germination of sclerotia of Macrophomina phaseolina. Plant Dis, 80, 1347–1350.
  • Parmeshwarappa R, Kajjari NB, Patil CSP, Thimmiaah HC, Bettsur SR. (1976). Charcoal rot incidence recorded at Regional Research Station, Dharwad (Karnataka) during Kharif. Sorghum News, 19, 37.
  • Pateman JA, Kinghorn JR. (1976). Nitrogen assimilation. In: JE Smith DR, Berry (eds.), The filamentous fungi, Vol. 2. New York: John Wiley and Sons, pp. 159–237.
  • Peakall R, Gilmore S, Keys W, Morgante M, Rafalski A. (1998). Cross-species amplification of soybean (Glycine max) simple sequence repeats (SSRs) within the genus and other legume genera: implications for the transferability of SSRs in plants. Mol Biol Evol, 15, 1275–1287.
  • Pearson CAS, Leslie JF, Schwenk FW. (1986). Variable chlorate resistance in Macrophomina phaseolina from corn, soybean and soil. Phytopathol, 76, 646–649.
  • Pecina-Quintero V, Martınez-De la Vega O, Alvarado-Balleza MJ, Vandemark GJ, Williams-Alanıs H. (2001). Comparació n de dos sistemas de marcadores moleculares en el ana lisis de las relaciones genéticas de Macrophomina phaseolina. Rev Mex Fitopatol, 19, 128–139.
  • Pedgaonkar SM, Mayee CD. (1990). Stalk water potential in relation to charcoal rot of sorghum. Ind Phytopathol, 43, 192–196.
  • Penketh PG, Shyam K, Sartorelli AC. (1994). Studies on the mechanism of decomposition and structural factors affecting the aqueous stability of 1,2-bis(sulfonyl)-1-alkylhydrazines. J Med Chem, 37, 2912–2917.
  • Petrak F. (1923). Kykologische Notizen VI. Annals Mycologicity, 21, 314–315.
  • Pratt RG, McLaughlin MR, Pederson GA, Rowe DE. (1998). Pathogenicity of Macrophomina phaseolina to mature plant tissues of alfalfa and white clover. Plant Dis, 82, 9, 1033–1038.
  • Pun KB, Sabitha D, Valluvaparidasan V. (1998). Studies on seed-borne nature of Macrophomina phaseolina in okra. Plant Dis Res, 13, 249–290.
  • Punithalingam E. (1982). Conidiation and appendage formation in Macrophomina phaseolina (Tassi) Goid. Nova Hedwigia, 36, 249–290.
  • Purkayastha S, Kaur B, Arora P, Bisyer I, Dilbaghi N, Chaudhury A. (2008). Molecular genotyping of Macrophomina phaseolina isolates: Comparison of microsatellite primed PCR and repetitive element sequence-based PCR. J Phytopathol, 156, 6, 372–381.
  • Purkayastha S, Kaur B, Dilbahi N, Chaudhury A. (2006). Characterization of Macrophomina phaseolina the charcoal rot pathogen of cluster bean, using conventional techniques and PCR-based molecular markers. Plant Pathol, 55, 106–116.
  • Purkayastha S, Kaur B, Dilbaghi N, Power JB, Davey MR, Chaudhury A. (2003). Studies on cultural characteristics and nitrogen assimilation in Macrophomina phaseolina infecting cluster bean (Cyamopsis tetragonoloba). Plant pathogen genomics from sequence to application. Proc of the British Soc for Plant Pathol, Presidential Meeting, Nottingham, UK.
  • Rajkumar FB, Kuruvinashetti MS. (2007). Genetic variability of sorghum charcoal rot pathogen (Macrophomina phaseolina) assessed by random DNA markers. Plant Pathol J, 23, 45–50.
  • Ramezani M, Shier WT, Abbas HK, Tonos JL, Baird RE, Sciumbato GL. (2007). Soybean charcoal rot disease fungus Macrophomina phaseolina in Mississippi produces the phytotoxin (–)-botryodiplodin but no detectable phaseolinone. J Nat Prod, 70, 128–129.
  • Razavi SE., Pahlavani MH. (2004, August 28–September 1). Isolation of the causal of charcoal rot disease of safflower and resistance of some cultivars to the disease. 16th Iranian Plant Protec Cong, Tabriz, Iran.
  • Reyes-Franco MC, Hernandez-Delgado S, Beas-Fernandez R, Medina-Fernandez M, Simpson J, Mayek-Perez N. (2006). Pathogenic and genetic variability within Macrophomina phaseolina from Mexico and other countries. J Phytopathol, 154, 447–453.
  • Saloheimo M, Lehtovaara P, Penttilä M, Teeri TT, Ståhlberg J, Johansson G, Pettersson G, Claeyssens M, Tomme P, Knowles JK. (1988). EGIII, a new endoglucanase from Trichoderma reesei: the characterization of both gene and enzyme. Gene, 63, 11–22.
  • Sanchez-Hernandez ME, Davila AR, Perez-de-Algaba A, Blanco-Lopez MA, Trapero-Casas A. (1998). Occurrence and etiology of death of young olive trees in Southern Spain. Europ J Plant Pathol, 104, 347–357.
  • Sanchez-Hernandez ME, Perez-de-Algaba A, Blanco-Lopez MA, Trapero-Casas A. (1996). Vascular wilt of young olive trees. Agricultura Revista-Agropecuaria, 65, 77, 2928–2932.
  • Santhakumari P, Kavitha K, Nisha MS. (2002). Occurrence of collar rot in coral hibiscus: a new record. J Mycol Plant Pathol,32, 2, 258.
  • Seetharama N, Bidinger K, Rao R, Gill KS, Mulgund M. (1987). Effect of pattern and severity of moisture deficit stress on stalk root-rot incidence in sorghum 1. Use of line source irrigation technique and the effect of time inoculation. Field Crop Res, 15, 289–308.
  • Sett S, Mishra SK, Siddiqui KA (2000). Avirulent mutants of Macrophomina phaseolina and Aspergillus fumigatus initiate infection in Phaseolus mungo in the presence of phaseolinone; levamisole gives protection. J Biosci, 25, 73–80.
  • Sharma S, Kumar K. (2009). Root rot of Jatropha curcas incited by Rhizoctonia bataticola in India. Indian Forester, 135, 3, 433–434.
  • Sheikh AH, Ghaffar A. (1979). Relation of sclerotial inoculum density and soil moisture to infection of field crops by Macrophomina phaseolina. Pak J Bot, 11, 185–189.
  • Shier W, Thomas A, Hamed K, Baird RE, Ramezani M, Sciumbato GL. (2007). (-)-Botryodiplodin, a unique ribose-analog toxin. Toxin Rev, 26, 4, 343–386.
  • Short GE, Wyllie TD, Ammon VD. (1978). Quantitave enumeration of Macrophomina phaseolina in soybean tissues. Phytopathol, 68, 736–741.
  • Short GE, Wyllie TD, Bristow PR. (1980). Survival of Macrophomina phaseolina in soil and residue of soybean. Phytopathol, 70, 13–17.
  • Siddiqui KA, Gupta AK, Paul AK, Banerjee AK. (1979). Purification and properties of heat-resistant exotoxin produced by Macrophomina phaseolina (Tassi) Goid in culture. Experientia, 35, 1222–1223.
  • Singh PJ, Mehrotra RS. (1982). Penetration and invasion of gram roots by Rhizoctonia bataticola. Ind. Phytopathol, 35, 336–338.
  • Singh RDN, Kaiser SAKM. (1994). Histopathological study of roots and stalk of maize plant invaded by the charcoal rot pathogen Macrophomina phaseolina. Adv in Plant Sci, 7, 125–130.
  • Singh SK, Nene YL, Reddy MV. (1990). Influence of cropping systems on Macrophomina phaseolina populations in soil. Plant Dis, 74, 812–814.
  • Sobti AK, Sharma LC. (1992). Cultural and pathogenic variations in isolates of Rhizoctonia bataticola from groundnut in Rajasthan. Ind Phytopathol, 45, 117–119.
  • Songa W, Hillocks RJ. (1996). Legume hosts of Macrophomina phaseolina in Kenya and effect of crop species on soil inoculum level. J Phythopathol, 144, 387–391.
  • Soni KK, Dodwal VS, Jamaluddin (1985). Charcoal rot and stem rot of Eucalyptus. Eur. J Forest Pathol, 15, 397–401.
  • Srivastava SK, Dhawan S. (1982). Phosphatidase activity in Brassica juncea plants infected with isolates of Macrophomina phaseolina and its role in pathogenesis. Bull Torrey Botanical Club, 109, 4, 508–512.
  • Srinivasan A, Wickes BL, Romanelli AM, Debelenko L, Rubnitz JE, Sutton DA, Thompson EH, Fothergill AW, Rinaldi MG, Hayden RT, Shenep JL. (2009). Cutaneous infection caused by Macrophomina phaseolina in a child with acute myeloid leukemia. J Clin Microbiol, 47, 1969–1972.
  • Su G, Suh SO, Schneider RW, Russin JS. (2001). Host Specialization in the Charcoal Rot Fungus, Macrophomina phaseolina. Phytopathol, 91, 120–126.
  • Suarez Z, Rosales LC, Rondon A, Gonzalez MS. (1998). Histopatologia de raices de Psidium guajava atacadas por el nematode Meloidogyne incognita raza 1 y los hongos Macrophomina phaseolina y Fusarium oxysporium. Fitopathol Venezolana, 11, 44–47.
  • Sumner DR, Dowler CC, Johnson AW, Baker SH. (1995). Conservation tillage and seedling diseases in cotton and soybean double-cropped with triticale. Plant Dis, 79, 372–375.
  • Sutton B. (1980). The coelomycetes: fungi imperfecti with pycnidia, acervuli and stromata. Kew, England: Commonw Mycol Inst Assoc Appl Biol.
  • Tan DH, Sigler L, Gibas CF, Fong IW. (2008). Disseminated fungal infection in a renal transplant recipient involving Macrophomina phaseolina and Scytalidium dimidiatum: case report and review of taxonomic changes among medically important members of the Botryosphaeriaceae. Med Mycol, 46, 285–292.
  • Umechuruba CI, Out KA, Ataga AE. (1992). The role of seed-borne Aspergillus flavus link ex Fr.Aspergillus niger Van Tiegh and Macrophomina phaseolina (Tassi) Goid on deterioration of groundnut (Arachis hypogaea L.) seeds. Inter Biodeter Biodegrad, 30, 1, 57–63.
  • Vandemark G, Martnez O, Pecina V, Alvardo M. de M (2000). Assessment of genetic relationships among isolates of Macrophomina phaseolina using simplified AFLP technique and two different methods of analysis. Mycologia, 92, 656–664.
  • Wang H, Jones RW. (1995). A unique endoglucanase-encoding gene cloned from the phytopathogenic fungus Macrophomina phaseolina. Appl Environ Microbiol, 61, 2004–2006.
  • Wassef MK, Ammon V, Wyllie TD. (1974). Polar lipids of Macrophomina phaseolina. Lipids, 10, 3.
  • Wassef MK, Fioretti TB, Dwyer DM. (1985). Lipid analyses of isolated surface membranes of Leishmania donovani promastigotes. Lipids, 20, 108–115.
  • Williams L, Miller A. (2001). Transporters responsible for the uptake and partitioning of nitrogenous solutes. Annu Rev Plant Physiol Plant Mol Biol, 52, 659–688.
  • Wortmann CS, Allen DJ. (1994). African bean production environments: Their definition, characteristics, and constraints. Network on Bean Research in Africa. Occasional paper series 11. Cali, Colombia: Centro Internacional de Agricultura Tropical.
  • Wrather JA, Anderson TR, Arsyad DM, Tan Y, Ploper LD, Porta-Puglia A, Ram HH, Yorinori JT. (2001). Soybean disease loss estimates for the top 10 soybean producing countries in 1998. Can J Plant Pathol, 23, 115–121.
  • Wrather JA, Koenning SR. (2006). Estimates of disease effects on soybean yields in the United States 2003 to 2005. J Nematol, 38, 173–180.
  • Wyllie TD. (1988). Charcoal rot of soybean-current status. In: TD Wyllie, DH Scott (eds.), Soybean diseases of the north central region. St. Paul, MN: APS Press pp. 106–113.
  • Yang XB, Navi SS. (2005). First report of charcoal rot epidemics caused by Macrophomina phaseolina in soybean in Iowa. Dis Notes, 89, 5, 526.
  • Zhang JQ, Zhu ZD, Duan CX, Wang XM, Li HJ. (2011). First report of charcoal rot caused by Macrophomina phaseolina on mungbean in China. Dis Notes, 95, 7, 872.
  • Zveibil A, Freeman S. (2005). First report of crown and root rot in strawberry caused by Macrophomina phaseolina in Israel. Plant Dis, 89, 9, 1014.

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