Molecular Assessment of Diversity among Pathotypes of Colletotrichum falcatum Prevalent in Sub-Tropical Indian Sugarcane

Summary Six pathotypes of Colletotrichum falcatum, responsible for Red-rot in sugarcane, prevalent in subtropical India were examined for genetic relationships using RAPD markers. A high degree of polymorphism (78.6%) was observed using 40 RAPD markers. More than 50% genetic divergence was found among the pathotypes and UPGMA cluster analysis of genetic similarity indices grouped the six pathotypes into two clusters. Cluster I comprised pathotypes Cf01 and Cf09, while cluster II comprised the remaining four pathotypes. Cf02 and Cf08 were the most closely related among all the pathotypes. Pathotype-specific unique bands generated in RAPD profiling are being used for developing markers for pathotype identification in diseased cane samples.     

Molecular and Pathological Characterization of Colletotrichum falcatum Infecting Subtropical Indian Sugarcane

Red rot, caused by Colletotrichum falcatum, is the most significant problem of sugarcane worldwide. Pathological studies and three different marker systems were used to characterize 25 C. falcatum isolates collected from 18 subtropical sugarcane cultivars from 15 different sugarcane‐growing regions of three north‐eastern states of India to assess pathogen diversity. Of these 25 isolates, three were new (RR2A, RR15, RR83) from cultivars Co 7717, Co J83 and Co S88230, respectively, pathologically characterized on 13 standard differential hosts. Isolates Cf 01, Cf 08 and RR15 were the most, and Cf‐07 the least virulent. Molecular characterization using random amplified polymorphic DNA, universal rice primers (URP) and inter simple sequence repeat markers amplified a total of 161 alleles of which 159 were polymorphic (98.76%). Unweighted paired group method with arithmetic averages analysis of combined data of all the DNA markers obtained by three marker systems classified 25 isolates into six clusters at 34% genetic similarity with high Mantel matrix correlation (r = 0.83). The principal component analysis (PCA) of marker data explained 68% of the variation by first three components. Molecular diversity as revealed in these isolates is very high, but non‐structured. Isolate Co Pant 84212 was found to be genetically most diverse. We demonstrated for the first time that URPs derived from weed rice could successfully assess genetic diversity in C. falcatum. Molecular characterization of the C. falcatum isolates prevalent in north‐eastern India would enable red rot management strate‐gies, selection for resistance genes and development of resistant cultivars.     

Assessment of genetic diversity in Colletotrichum falcatum Went accessions based on RAPD and ISSR markers

Sugarcane is susceptible to red rot disease caused by phytopathogenic fungus Colletotrichum falcatum Went which ultimately affect the economy of farmers as well as sugar based industry. One of the various ways to control this devastating disease is to develop disease resistance sugarcane cultivar and this requires the complete understanding of genetic makeup of pathogen. Although South Gujarat is well known sugarcane cultivating area, less published data can be found about PCR-based genetic diversity in prevalent C. falcatum accessions. So, present investigation aims at finding molecular variation among the ten accessions of C. falcatum using RAPD and ISSR molecular markers. A total of 35 RAPD and 39 ISSR primers were screened across 10 C. falcatum accessions, of which 15 RAPD and 21 ISSR primers have showed consistent amplification. Statistics related to genetic variation were estimated using NTSYS-PC by means of Dice’s coefficient. The results revealed 80.6% and 68.07% polymorphism and similarity coefficient ranged from 0.43 to 0.91 and 0.73 to 0.93 in RPAD and ISSR analysis respectively. The dendrogram generated using RAPD, ISSR and combined RAPD-ISSR grouped accessions into different clusters which reveal considerable level molecular variation among the C. falcatum accessions. It is also evident from PCA plots that accessions are rather dispersed with tested marker systems indicating good genetic base. So, in nut shell, we found considerable genetic variation and relatedness within C. falcatum accessions collected from different areas of south Gujarat, India using RAPD and ISSR markers.     

RAPD analysis of genetic diversity among the isolates of Aspergillus flavus from different hosts and locations

Aflatoxin contamination is a major problem in maize, groundnut, chillies, cotton and tree nuts. These aflatoxins are low molecular weight toxic and carcinogenic secondary metabolites produced by Aspergillus flavus, A. parasiticus and A. nomius. In the present study, a total of 11 isolates of A. flavus isolated from groundnut, maize and chilli collected from different locations of Tamil Nadu, India were tested for their ability to produce aflatoxin B1 (AFB1) in vitro by indirect competitive enzyme-linked immunosorbent assay. The results show that the isolates vary in their level of toxin production. The amount of AFB1 produced by the toxigenic isolates of A. flavus ranged from 6.6 to 108.1?ng?ml^?1. Among the various isolates of A. flavus, the isolate VKR produced the highest amount (108.1?ng?ml^?1) of AFB1. The isolates viz. CBE1, CBE2, BSR1, BSR3 and BSR4 were found to be non-toxigenic. The genetic variability among these isolates was assessed by Random amplified polymorphic DNA (RAPD) analysis. DNA fragments of between 0.15 and 3.0?kb were obtained using 13 random primers, and each isolate differed in the size and number of PCR products indicating considerable polymorphism. Cluster analysis using Unweighted Pair Group Method with Arithmetic Mean clearly separated the isolates into four main clusters confirming the genetic diversity among the isolates of A. flavus. Both toxigenic and non-toxigenic isolates were intermingled in these four groups, indicating that no relationship exists between RAPD profile and the production of aflatoxin by A. flavus.     

Morphological and molecular characterisation of Pythium species causing chilli (Capsicum annuum L.) damping-off

Twenty-five Pythium isolates comprising five species viz., Pythium aphanidermatum, P. deliense, P. graminicola, P. heterothallicum and P. ultimum from different geographical locations of Tamil Nadu (Coimbatore, 4; Cuddalore, 6; Dindigul, 1; Dharmapuri, 1; Erode, 1; Madurai, 1; Namakkal, 7; Thanjavur, 1; Theni, 1; Thirunelveli, 1 and Vellore, 1) isolated from chilli crop were analysed with randomly amplified polymorphic DNA (RAPD) markers. Morphological and molecular characteristics of these different species were correlated with the RAPD. Polymerase chain reaction amplification of total genomic DNA with six random primers generated unique banding patterns depending on the primer and the isolate. The isolate I₁₇ produced identical banding patterns, while other isolates produced dissimilar bands within the particular species, indicating the genetic diversity among the isolates within a species. Morphological characters were also different from each other even in isolate I₁₇ which shared identical bands. Cluster analysis showed minimum and maximum per cent similarities among the tested Pythium species which ranged from 49 to 89%, respectively. RAPD markers were better suited for differentiating isolates within a species rather than species.     

Detection of Colletotrichum falcatum causing red rot of sugarcane by enzyme-linked immunosorbent assay

Red rot disease of sugarcane caused by Colletotrichum falcatum Went is one of the most destructive diseases of sugarcane (Saccharum officinarum L.) worldwide. The pathogen spreads primarily through infected sugarcane setts and hence the use of disease-free setts is essential to prevent the disease. In order to develop immunological method for detection of C. falcatum, two proteins with molecular weights of 27 kDa and 45 kDa were purified from the mycelium of C. falcatum race Cf 05 and used as antigen source to raise polyclonal antibodies in NewZealand white rabbit. The developed polyclonal antibodies were tested for detection of C. falcatum by enzyme-linked immunosorbent assay (ELISA) and immunoblot analysis. The polyclonal antibodies specifically detected C. falcatum in extracts from infected plants, both in immunoblot and ELISA. The ELISA results showed that the developed polyclonal antibodies were highly specific to C.falcatum. The developed antibodies were very sensitive and could detect C.falcatum proteins even at a dilution of 1:50,000. Higher ELISA absorbance values were recorded even at an antigen dilution of 1:500. In western blot analysis, protein bands with molecular weights of 27 kDa and 45 kDa reacting to antisera raised against 27 kDa and 45 kDa mycelial proteins of C. falcatum, respectively, were detected in protein samples from red rot infected canes. The high specific reactivity and sensitivity of the antisera indicate its potential suitability for ELISA-based detection of C. falcatum.     

Molecular detection of Colletotrichum falcatum causing red rot disease of sugarcane (Saccharum officinarum) using a SCAR marker

Red rot disease of sugarcane caused by Colletotrichum falcatum is one of the most destructive diseases of sugarcane (Saccharum officinarum) worldwide. The pathogen spreads primarily through infected sugarcane setts and hence the use of disease‐free planting materials is essential for preventing disease development in the field. In the present study a polymerase chain reaction (PCR) assay was developed for accurate and sensitive detection of C. falcatum in planting materials. Randomly amplified polymorphic DNA (RAPD) analysis identified a 566 bp PCR fragment that was specific to C. falcatum. The DNA sequence of this fragment was determined and used to design oligonucleotides amplifying a 442 bp sequence characterised amplified region (SCAR). The specificity of the SCAR primers was evaluated using purified DNA from C. falcatum and other Colletotrichum spp. as templates in PCR. The results indicated that the SCAR primers were highly specific to C. falcatum since the 442 bp fragment was amplified only from DNA of isolates and races of C. falcatum but not from any other Colletotrichum spp. tested. The detection sensitivity of C. falcatum was 0.1 ng for genomic DNA of C. falcatum and 5 ng for DNA extracted from infected sugarcane tissue. This new PCR‐based assay is a convenient tool for detection of this important pathogen in seed canes to ensure production of sugarcane.     

Analysis of genetic variability of Fusarium oxysporum f. sp. cepae the causal agent of basal rot on onion using RAPD markers

Genetic variability among isolates of Fusarium oxysporum f. sp. cepae was obtained from different onion-growing areas of Tamil Nadu, India. Random amplified polymorphic DNA (RAPD) analysis was carried out using 12 random primers, each of them consisting of 10 base pairs. Four out of the 12 primers were differentiated between some of the tested F. oxysporum f. sp. cepae isolates. Analysis of the genetic coefficient matrix derived from the scores of RAPD profile showed that minimum and maximum per cent similarities among the F. oxysporum f. sp. cepae isolates were in the range of 14–85%. Cluster analysis, using the unweighted pair-group method with arithmetic average, clearly separated the isolates into two clusters (A and B) confirming the genetic diversity among the isolates of F. oxysporum f. sp. cepae from onion.     

Suppression of red rot caused by <Emphasis Type="Italic">Colletotrichum falcatum</Emphasis> on sugarcane plants using plant growth-promoting rhizobacteria

Bacterial strains with ability to suppress Colletotrichum falcatum were isolated from the rhizosphere of sugarcane. Thirty nine candidates, chosen on the basis of in vitro antagonism, inhibited C. falcatum growth by 15–65% on test plates. Twenty two isolates causing 50% or more in vitro inhibition were screened for their root colonization ability and biocontrol activity on micropropagated sugarcane plants under greenhouse conditions. Twelve strains suppressed red rot infection in plantlets, but no significant correlation was observed between in vitro pathogen inhibition and in vivo disease suppression. However, isolates showing root colonization over 5.2 log₁₀ CFU g⁻¹ of soil showed highest suppression of C. falcatum and reduction of red rot disease. Six strains with the capability to maintain a significant population in the sugarcane rhizosphere and with a high potential to control red rot were identified by 16S rDNA as Ochrobacterum intermedium NH-5, Pseudomonas putida NH-50, Bacillus subtilis NH-100, Bacillus subtilis NH-160, Bacillus sp NH-217 and Stenotrophomonas maltophilia NH-300.     

AFLP and RAPD Characterization of Phaeoacremonium aleophilum Associated with Vitis vinifera Decline in Spain

The genetic diversity among Spanish isolates of the fungus Phaeoacremonium aleophilum, one of the major causes of grapevine decline, was determined using random amplified polymorphic DNA (RAPD) and amplified fragment length polymorphism (AFLP) techniques. Using RAPD, a large genetic variation was observed among 36 Pm. aleophilum single‐spore cultures, with 76 (82.6%) polymorphic bands generated by 12 RAPD primers. A neighbour‐joining dendrogram showing the RAPD patterns of diversity revealed four groups of haplotypes. The Bayesian and principal components clustering analysis revealed three groups of haplotypes. When more than one isolate of Pm. aleophilum was obtained from a single vine, different haplotypes were found. Seventeen single‐spore isolates were used for AFLP analysis. Five primer combinations produced 358 scorable markers, of which 309 (86.3%) were polymorphic. The analysis based on genetic distance as well as clustering analysis confirmed three main groups largely in agreement with those returned by the RAPD results. The Mantel correlation between the RAPD and AFLP distance matrices ranged from R = 0.5931 to R = 0.6294. The high level of haplotype diversity among the RAPD and AFLP markers suggests that sexual reproduction and genetic recombination may occur between Pm. aleophilum haplotypes in Spain. The AFLP approach revealed a greater number of polymorphic markers. A relationship between the genetic profile of the infecting isolate of Pm. aleophilum and the age or decline symptoms of the grapevines may exist.     

Morphological and molecular characterisation of Lasiodiplodia theobromae from various banana cultivars causing crown rot disease in fruits

Twelve isolates of Lasiodiplodia theobromae were collected from 12 different commercial banana cultivars belonging to various banana growing regions of Tamil Nadu, India. The results revealed that most of the L. theobromae isolates exhibited significant differences in morphology, colour and spore size. However, all 12 isolates took 3–4 days invariably to cover the 90 mm Petri plates. Among the 12 isolates, the isolates LT3a from Robusta and LT10c from dwarf Cavendish produced abundant pycnidia. These isolates were also analysed through Random amplified polymorphic DNA (RAPD) markers for genetic diversity. Polymerase chain reaction amplification of total genomic DNA of the 12 isolates of L. theobromae with 14 random primers generated numerous polymorphisms among the isolates, while many of the intense bands were shared among majority of the isolates. Cluster analysis also indicated a high degree of genetic variability within L. theobromae isolates from different banana cultivars. The 12 isolates were separated into three clusters namely A, B and C. The maximum similarity index of 80% was recorded between the isolates LT7d from Karpuravalli and LT10c from dwarf Cavendish. The least similarity index of 29.41% was recorded with the isolates LT1f isolated from Poovan and LT5a isolated from Virupakshi. Within the species of L. theobromae the genetic variability was high and it underlines and validates existence of significant intra-specific diversity in isolates of L. theobromae infecting different banana cultivars.     

Genetic differentiation of host limited forms of Colletotrichum truncatum from northwestern Himalayas

Abstract

Genetic diversity and differentiation of 58 C. truncatum isolates from urdbean, horsegram, soybean, ricebean, cowpea and mungbean collected from the traditional crop growing area of north-western Himalayas was studied through RAPD analysis. RAPD profiles generated by the random primers exhibited a high degree of variability among different isolates of C. truncatum. Cluster analysis of the binary data permitted the grouping of isolates on the basis of their origin from different hosts. However, isolates from cowpea and mungbean collected from the same field were grouped together. The dendrogram revealed the presence of 52 multilocus genotypes among 58 isolates of the pathogen. Maximum diversity was detected in the isolates from ricebean and horsegram (′D = 1) followed by urdbean (′D = 0.99). The results indicate that at least some gene flow is occurring between the different host-limited forms of C. truncatum.     

Determination of genetic diversity among Indian isolates of Rhizoctonia bataticola causing dry root rot of chickpea

Genetic diversity among 27 isolates (23 from chickpea and 4 from other host crops) of Rhizoctonia bataticola representing 11 different states of India was determined by random amplified polymorphic DNA (RAPD), internal transcribed spacer restriction fragment length polymorphism (ITS-RFLP) and ITS sequencing. The isolates showed variability in virulence test. Unweighted paired group method with arithmetic average cluster analysis was used to group the isolates into distinct clusters. The clusters generated by RAPD grouped all the isolates into six categories at 40% genetic similarity. High level of diversity was observed among the isolates of different as well as same state. Some of the RAPD (OPN 4, OPN 12, and OPN 20) markers clearly distinguished majority of the isolates into the area specific groups. The ITS I, 5.8rDNA and ITS II regions of 11 isolates representing different RAPD groups were amplified with primers ITS 1 and ITS 4 and digested with seven restriction enzymes. The restriction enzymes DraI, MboI, RsaI, and AluI were found to be suitable for differentiating the isolates into five categories by showing isolate specific ITS-RFLP patterns. The isolates were variable in their nucleotide sequences of the ITS regions. This is the first study on genetic diversity among chickpea isolates of R. bataticola.     

Detection of genetic variability in various isolates of cattle tick, <Emphasis Type="Italic">Boophilus microplus</Emphasis> from Tamil Nadu,India using PCR-RAPD analysis

The genomic DNA from ten isolates of the cattle tick, Boophilus microplus collected in and around Chennai, India, was analyzed by random amplified polymorphic DNA (RAPD) using PCR. Selected five random primers were used for the study of genetic variability among different isolates of B. microplus. A high degree of genetic polymorphism with a different pattern of RAPD profiles for each tick isolate was detected with all these random primers. This variability was also confirmed by similarity coefficient values and dendrogram which were performed using mean RAPD profiles for all the primers between various isolates of ticks. The findings suggest the existence of a complex genotypic diversity of the tick B. microplus in an endemic region such as Chennai.     

Molecular assessment of diversity among endophytic diazotrophs isolated from subtropical Indian sugarcane

Twenty-two endophytic bacterial isolates from the roots of sugarcane were compared morphologically, biochemically and genetically. Gram staining, colony pigment, texture and other cultural characteristics were taken for morphological characterization. Oxidation-fermentation tests for D-glucose and D-sucrose, production of acid and hydrogen from different carbon source, oxidase activity, antibiotic and drug resistance patterns were chosen as the biochemical and physiological criteria. Twelve random decamer primers were used to analyze and compare these isolates through RAPD among themselves as well as with known standard diazotrophic strains. The isolates were compared through dendrograms constructed on the basis of similarity patterns obtained from biochemical and RAPD analysis. The estimated diversity through RAPD analysis was more evident than the diversity on the basis of morphological and biochemical characters. Within Acetobacter group, the isolates showed substantial genetic diversity for future exploitation as PGPRs and diazotrophic associative endophytes.     

Expression analysis on mycoparasitism related genes during antagonism of <Emphasis Type="Italic">Trichoderma</Emphasis> with <Emphasis Type="Italic">Colletotrichum falcatum</Emphasis> causing red rot in sugarcane

Present study was aimed to select a suitable Trichoderma isolate as candidate antagonist based on its efficacy in producing cell wall degrading enzymes (CWDEs), its mycoparasitism activity and expression of related genes against the red rot pathogen caused by Colletotrichum falcatum in sugarcane. For which, six different isolates of Trichoderma selected from our earlier studies (T. harzianum, T. asperullum) were evaluated based on their capability in releasing cell wall degrading enzymes individually and during antagonism with C. falcatum in dual plate. Amongst T. harzianum (T20) exhibited the greatest mycoparasitic potential against the C. falcatum, by producing higher concentration of  CWDEs viz., chitinase and β-1, 3-glucanase, slightly lower amounts of cellulase and protease with significant reduction in polygalacturonase produced by pathogen. Further microscopic observation on interaction of C. falcatum with the selected isolate of T. harzianum (T20) exhibited the mycoparasitic activity of antagonist over pathogen in dual culture and inhibition of C. falcatum pathogenesis in detached sugarcane leaves. In addition, expression pattern of eight genes coding various enzymes involved in mycoparasitism by T. harzianum over C. falcatum were analyzed using qRT-PCR in vitro and on sugarcane leaves. In in vitro interactions, five genes of  cell wall degrading enzymes viz., chitinase (chit33), endochitinase (endo42), β-1, 3-glucanase (glu), exochitinase 1 (exc1), exochitinase 2 (exc2), were upregulated during and after contact as compared to before contact, while three genes related with proteases such as alkaline proteinase (prb1), trypsin-like protease (Pra1), subtilin-like serine protease (ssp), genes were upregulated during the contact with C. falcatum and slightly down regulated after contact. In detached leaves, seven genes were potentially upregulated except subtilin-like serine protease, which was down regulated during interaction of C. falcatum and T. harzianum as compared to T. harzianum inoculation alone. All these biochemical and molecular results confirm the efficacy of T. harzianum (T20) against C. falcatum and justify the right selection of candidate antagonist for our further studies on identification of antifungal genes/proteins against C. falcatum in sugarcane.     

Bio-formulation of fluorescent Pseudomonas spp. induces systemic resistance against red rot disease and enhances commercial sugar yield in sugarcane

Abstract

Isolates of Pseudomonas spp. collected from the rhizosphere of sugarcane and cane stalks were screened for their antagonistic activity against Colletotrichum falcatum causing red rot disease in sugarcane. Talc formulations of the selected Pseudomonas spp. isolates improved the sugarcane vegetative sett germination and sugarcane growth under field conditions. Optimal talc formulations were assessed for their effect on induction of systemic resistance against the pathogen in the canes under artificial inoculation. All the four isolates CHAO, EP1, KKM1 and VPT4 were effective in inducing systemic resistance against C. falcatum in two seasons. In other studies, the bacterial formulations were assessed to induce resistance in sugarcane in a sick plot situation. In pathogen-infested soil the isolates KKM1 and CHAO suppressed the red rot disease development in susceptible sugarcane cultivar. Pseudomonas strains also protected sugarcane in a disease-endemic location. Pseudomonas spp treatment substantially improved the cane juice quality parameters affected by the pathogen infection. Standardization of talc formulations and application methods in the field offers potential for large-scale application of biocontrol formulations for the management of red rot disease in sugarcane growing regions.     

Colletotrichum species associated with sugarcane red rot in Brazil

Sugarcane is a widely cultivated crop in Brazil and in many parts of the world. However, the red rot causes huge losses due to the reduction of sucrose and deterioration of the juice. The aim of this study was to identify Colletotrichum species associated with the red rot through polyphasic approaches; which included phylogenetic, morpho-cultural analyzes and pathogenicity tests. Nine isolates from the states of Alagoas and two from São Paulo, Brazil, were preliminary analyzed with the glyceraldehyde-3 phosphate dehydrogenase gene (GAPDH), as an initial measure for species diversity. Later on, the representative isolates of each species were sequenced with the β-tubulin (TUB2) gene, calmodulin (CAL), DNA lyase (APN2/MAT IGS) and the ITS-rDNA region. Morphocultural characterization was performed by evaluating the mycelial growth rate (MGR), colony appearance and the shape and size of 50 conidia and appressoria. For the pathogenicity test asymptomatic leaves and stalks of sugarcane were tested with and without injuries. Phylogenetic analysis associated with morphocultural characteristics and the pathogenicity test of the eleven isolates revealed three Colletotrichum species: Colletotrichum falcatum (8 isolates), Colletotrichum siamense (1 isolate) and Colletotrichum plurivorum (2 isolates) causing the red rot disease in sugar cane. All species were pathogenic in wounded leaves and stalks, being C. falcatum the one causing the largest lesions (1.12 cm) in leaves and C. plurivorum in stalks (0.67 cm). Therefore, this study confirms the association of C. falcatum as a sugarcane pathogen and records for the first time worldwide the occurrence of C. siamense and C. plurivorum associated with this host.     

Characterization of Colletotrichum lindemuthianum Isolates from the State of Minas Gerais, Brazil

Anthracnose disease of common bean (Phaseolus vulgaris), caused by Colletotrichum lindemuthianum, is responsible for extensive yield losses worldwide. This pathogen is known to vary greatly in its pathogenicity. Control strategies include chemical control and, mainly, the development of resistant cultivars, taking into account the population structure of C. lindemuthianum. The objective of this study was to investigate the pathogenic and genetic diversity and population structure among C. lindemuthianum isolates collected in Minas Gerais state, Brazil. When these isolates were inoculated on 12 differential cultivars, a total of 10 races were identified within a series of 48 isolates collected in Minas Gerais, Brazil. Races 65, 81 and 73 were the most frequent races and occurred in most of the regions. This study also detected race 337, which had not been reported previously in the literature. Random amplified polymorphic DNA (RAPD) analysis performed on the same 48 isolates revealed great genetic diversity, clustering the series into five groups at a maximum similarity value of 89.6%. There was no clear relationship between the loci sampled by RAPD markers and the pathogenic characterization. Analysis of molecular variance showed that 96.06% of the variability was contained within regions and 3.94% among regions, indicating a high exchange of genetic material among the regions of the State. Most of the variability was detected within races (75.24%). The pathogenicity and RAPD assays corroborated the broad genetic diversity of the pathogen and the results have been useful in breeding for resistance to anthracnose.     

Genetic Diversity of Bacillus cereus/B. thuringiensis Isolates from Natural Sources

The genetic diversity and relationships among 154 Bacillus cereus/B. thuringiensis isolates recovered from soil samples from five geographic areas in Norway were investigated with multilocus enzyme electrophoresis (MEE). Cluster analysis revealed two major groups (designated cluster I and cluster II) separated at genetic distance greater than 0.55. Cluster I included 62 electrophoretic types (ETs) originating from all five locations, whereas, in cluster II, all but one isolate were from the same location. The isolates were also serotyped with B. thuringiensis flagellar antisera, and 28 distinct serotypes were identified. In general, serotyping did not show correlation to the genetic diversity of the isolates. The presence of IS231- and IS240-like transposable elements was detected in 14% of the strains of cluster II only. Parasporal crystals were observed in three strains; ten other strains were toxic to Trichoplusia ni. We conclude that B. cereus/B. thuringiensis from soil exhibit a high degree of recombination. Received: 15 December 1997 / Accepted: 26 January 1998