Molecular epidemiology of contagious bovine pleuropneumonia by multilocus sequence analysis of Mycoplasma mycoides subspecies mycoides biotype SC strains

Contagious bovine pleuropneumonia is a bacterial disease caused by Mycoplasma mycoides subsp. mycoides SC (MmmSC), and included in list A of the Office International des Epizooties. It is one of the major constraints to cattle raising in sub-Saharan and south-western Africa and also a threat to all countries currently free of the disease. MmmSC strains were considered very homogeneous until 1995, when various techniques such as enzymatic restriction of whole DNA or Southern blotting showed that this was not the case. These techniques are unfortunately difficult to standardize and require the extraction of DNA from an MmmSC culture. We therefore decided to investigate the possibility of constructing a molecular epidemiology tool based on multilocus sequence analysis (MLSA) with PCR amplification of various loci followed by sequencing. Six loci were found suitable for this purpose and an additional PCR was designed to detect the presence of an 8.8kb deletion described by others in some strains. Fifteen different MLSA profiles were evidenced in our study. They allowed a clear distinction between European, south-western African and sub-Saharan strains. In addition, the results obtained on strain PO1967 confirmed its European origin, even though it does not exhibit the 8.8kb deletion. This new tool for contagious bovine pleuropneumonia may prove particularly useful for identifying MmmSC strains in countries at risk from contamination. It can also easily be refined by adding more strains or other loci of interest.     

Strains of Mycoplasma mycoides subsp. mycoides small colony type isolated in China between 1953 and 1960 show close similarity to strains of the Africa/Australia cluster

In this study, six Chinese strains of Mycoplasma mycoides subsp. mycoides small colony type (MmmSC) isolated between 1953-1960 were analysed and their molecular characteristics compared to those of the African PG1 and Afade strains, the European C305 and 138/5 strains and the closely related caprine M. mycoides subsp.mycoides large colony type Y-goat strain. PCR amplification of long DNA fragments showed that the six Chinese strains, the PG1 strain and the Y-goat strain, just like Afade, did not have the 8.84 kb deletion characteristic of the European strains C305 and 138/5. In comparison, the lppB gene sequence of the six MmmSC Chinese strains was found to be 99% homologous to that of PG1and Afade, but <93% homologous to the Y-goat sequence. The anti-rLppB antiserum reacted with PG1, Y-goat and the six Chinese strains at 67 kDa sites in Western blot, indicating that the lppB gene and its encoding protein exist in the Chinese strains. Multilocus sequence analysis (MLSA) of MmmSC strains from various regions confirmed that the Chinese strains were identical to the African and Australian cluster. This finding was further supported by the outcome of selective primer amplification. Based on these results, it is suggested that CBPP in China may have originated from Australia.     

Antigenic and genetic characterisation of lipoprotein lppC from Mycoplasma mycoides subsp. mycoides SC

Lipoprotein lppC, an immunodominant antigen, and its corresponding gene lppC were characterised in Mycoplasma mycoides subspecies mycoides small colony (SC) type, the etiological agent of contagious bovine pleuropneumonia (CBPP). The lppC gene was found in the type strain of M. mycoides subsp. mycoides SC and in field strains isolated in Europe, Africa, and Australia, as well as in vaccine strains. Southern blot analysis indicated the presence of at least four copies of lppC in the genome of M. mycoides subsp. mycoides SC, of which only one seems to be functional. Genes homologous to lppC have also been detected in closely related mycoplasmas such as M. mycoides subsp. mycoides large colony (LC) type and in M. sp. bovine group 7. lppC is encoded as a precursor with a consensus sequence for a prokaryotic signal peptidase II. The amino acid sequence of lppC and its precursor showed similarity to both LppB (at the N-terminal domain) and LppQ (at the C-terminal domain), two lipoproteins described previously in M. mycoides subsp. mycoides SC. The N-terminal domain of the mature lppC seems to be surface exposed. The C-terminal domain presented an integral membrane structure made up of five repeated units, rich in hydrophobic and aromatic amino acids, which may have pore forming potential in the mycoplasmal membrane. A recombinant peptide representing the N-terminal half of lppC was obtained following cloning in vector pETHIS-1 and expression in Escherichia coli hosts. The recombinant protein was used on immunoblots for serological analysis of sera from cattle that were naturally or experimentally infected with M. mycoides subsp. mycoides SC.     

丝状支原体丝状亚种SC型中国分离株分子流行特征

收集了6个来自不同地方中国历史流行的丝状支原体丝状亚种SC型（Mycoplasma mycoides subsp．MycoidesSC，MmmSC）毒株与PG1、Y—goat进行分子特征比较。全茵体蛋白电泳与PG1完全相同，而与Y-goat不同；PCR结果显示6个中国分离株与PG1、Y-goat都没有缺失8．84kb片段；LppB全基因序列比较发现与PG1同源性达99％，而与Y—goat同源性很低；多位点基因序列类型（Multilocus sequence types，MST）分析显示与非洲澳大利亚群完全相同。以上证据显示中国CBPP流行株应归属于非洲澳大利亚群。     

Development of real-time diagnostic assays specific for Mycoplasma mycoides subspecies mycoides Small Colony

Rapid and specific detection of Mycoplasma mycoides subsp. mycoides Small Colony (M. mycoides SC) is important for the effective control of contagious bovine pleuropneumonia. Although the United States has been free of this disease for over 100 years, it is necessary to develop modern diagnostic assays that are sensitive and specific for biological agents that would affect the US agricultural industry following accidental or intentional introduction into the US agricultural population. With this aim in mind, we have identified M. mycoides SC-specific genetic loci and developed TaqMan-based PCR assays for the detection of M. mycoides SC. The TaqMan assay allows for real-time detection of specific, amplified PCR products using portable equipment, enabling testing to be performed in the field. These assays are specific for M. mycoides SC, failing to amplify DNA from other organisms belonging to the M. mycoides cluster or two phylogenetically unrelated bovine mycoplasma species. Standard curves were drawn based on the linear relationships measured between the threshold fluorescence (C(T)) values and a measured quantity of genomic DNA. M. mycoides SC was successfully detected in bronchoalveolar lavage samples obtained from experimentally infected cattle. These TaqMan-based real-time PCR assays will allow for the rapid and specific detection of M. mycoides SC.     

Mycoplasma mycoides subsp. capri and Mycoplasma mycoides subsp. mycoides LC can be grouped into a single subspecies

Mycoplasma mycoides subsp. capri and Mycoplasma mycoides subsp. mycoides LC can be combined into one taxon on the basis of several contributions on both DNA sequence and protein analyses reported in the literature. Moreover, for the differentiation and identification of mycoplasmas of the "mycoides cluster", we investigated the rpoB gene, encoding the beta-subunit of the RNA polymerase. A segment of 527 bp of the rpoB gene was amplified from 31 strains of ruminant mycoplasmas by PCR. The nucleotide sequences were determined and aligned, and accurate genetic relationships were calculated. Cluster analysis of rpoB DNA allowed species differentiation within the "mycoides cluster" and confirmed that M. mycoides subsp. capri and M. mycoides subsp. mycoides LC cannot be distinguished from each other. "Mycoplasma mycoides subsp. capri" is proposed as a common name for both subspecies.     

Genotyping of Mycoplasma mycoides subsp. mycoides SC by multilocus sequence analysis allows molecular epidemiology of contagious bovine pleuropneumonia

Mycoplasma mycoides subsp. mycoides SC (MmmSC) is the etiological agent of contagious bovine pleuropneumonia (CBPP). Although eradicated in most developed countries, the disease reappeared in Europe in the 1990s. This reappearance may have been caused either by importation from sub-Saharan Africa, where CBPP is still endemic, or by the reemergence of virulent strains in Europe, as suggested by earlier studies. A multilocus sequence analysis scheme has been developed to address this issue and, most importantly, to be able to monitor new epidemics. The alignment of the full genome sequence of the reference strain PG1 and the partial genome sequence of a pathogenic strain allowed the identification of polymorphic sites. Nineteen initial loci were selected within housekeeping genes, genes of unknown function and non coding sequences. The suitability of these loci for genotyping MmmSC strains was first tested on six strains of diverse geographic origin. The analyses showed that the published PG1 sequence contained a number of specific polymorphisms that were therefore of no use for molecular typing. Among the eight informative polymorphic loci finally selected, only one (ftsY) was positioned within a housekeeping gene. Three main groups and 31 different allelic profiles were identified among 51 strains and strain variants examined. Cluster analysis confirmed that European strains from the 1990s did not originate from Africa. It also showed a genetic link between a European strain isolated in 1967 and those found in southern Africa and Australia. This was in agreement with historical data showing that CBPP was introduced in these regions during colonisation in the 19th century.     

Molecular analysis of field strains of Mycoplasma capricolum subspecies capripneumoniae and Mycoplasma mycoides subspecies mycoides, small colony type isolated from goats in Tanzania.

A molecular analysis of strains of Mycoplasma capricolum subsp. capripneumoniae (M. capripneumoniae) and Mycoplasma mycoides subsp. mycoides, small colony type (M. mycoides SC) isolated from goats was performed using the amplified fragment length polymorphism (AFLP) and pulsed-field gel electrophoresis (PFGE) fingerprinting techniques. Among the 11 field strains of M. capripneumoniae from Tanzanian goats, two AFLP patterns were demonstrated, with 10 of the strains showing indistinguishable patterns. Five Kenyan strains of M. capripneumoniae produced three AFLP patterns, with two of them being indistinguishable from the 10 identical Tanzanian and one Ugandan strain (M74/93) isolated from sheep. The AFLP pattern of the type strain (F38(T)) was identical to two Kenyan strains (Baringo and G183/82). On PFGE analysis, all the examined M. capripneumoniae strains exhibited identical PFGE profiles.Five field strains of M. mycoides SC isolated from goats displayed identical AFLP patterns except for one strain which differed from others at only one position. The AFLP pattern of the type strain of M. mycoides SC (PG1(T)) was different from the field strains. The five field strains of M. mycoides SC produced identical PFGE profiles, which were, however, different from the type strain. The AFLP and PFGE profiles of M. mycoides SC strains from goats were identical to those of six strains isolated from cattle affected with contagious bovine pleuropneumonia (CBPP) in the same areas. The results of this study suggest a close epidemiological linkage between strains of M. capripneumoniae and between M. mycoides SC type, respectively, isolated from goats in Tanzania.     

Phylogeny of the Mycoplasma mycoides cluster as shown by sequencing of a putative membrane protein gene

The Mycoplasma mycoides cluster is made of six species that are closely related both genetically and phenotypically. Two are of particular importance, M. mycoides subsp. mycoides SC causing contagious bovine pleuropneumonia and M. capricolum subsp. capripneumoniae causing contagious caprine pleuropneumonia. The sequences of a putative membrane protein gene and partial flanking open reading frames have been obtained from various strains in this cluster, including all reference strains. Sequence analysis showed this locus is present and fully conserved in all strains of M. mycoides subsp. mycoides SC isolated from geographically most distant places worldwide. In M. capricolum subsp. capripneumoniae polymorphism in this locus has been found at seven positions and revealed that they can be used as epidemiological markers. Conserved regions were used to define a primer pair that enables the amplification by PCR of two fragments 302 and 1298bp long, respectively. The 302bp long fragment contains an intergenic sequence that can be used for phylogenetic studies or for identification purposes. Parsimony analysis on an alignment of 49 DNA sequences show a subdivision of the M. mycoides cluster into two subgroups that is in accordance with results obtained by phenotypic methods. Two lineages exist within the capricolum subgroup, one of them clustering strains identified as M. capricolum subsp. capricolum, M. capricolum subsp. capricolum and M. sp Bovine Group 7. However M. capricolum subsp. capripneumoniae strains can readily be identified by three specific nucleotide positions or by sequencing the 1298bp long fragment. There is no clear subdivision within the mycoides subgroup, supporting the idea that M. mycoides subsp. mycoides LC and M. mycoides subsp. capri should not be separated into two subspecies. Mycoplasma mycoides subsp. mycoides SC strains can easily be distinguished as they bear an insertion sequence 15bp downstream from the stop codon of the membrane protein gene.     

Mycoplasma mycoides subsp. mycoides SC identification by PCR in sperm of seminal vesiculitis-affected bulls.

In this study, by using the polymerase chain reaction (PCR) diagnosis for the detection and identification of Mycoplasma, we investigated mycoplasmas contaminating the semen of yearling bulls affected by seminal vesiculitis. The bulls presented neither subclinical nor clinical contagious bovine pleuropneumonia signs and the complement fixation test for specific antibodies was negative. Furthermore, we have investigated mycoplasmas isolated from semen of healthy breeding bulls of several breeds and origins, which routinely underwent breeding soundness examinations and presented no clinical signs of seminal vesiculitis. We were able to demonstrate mycoplasma infection in all tested samples by i) growth on mycoplasma-specific media and ii) a PCR-based method using a mycoplasma-specific MGSO/GPO1 primer set to amplify the 16S fragment rDNA. In addition, the identification of Mycoplasma species was made by PCR using the MSC1/MSC2 primer set that specifically amplifies M. mycoides subsp. mycoides SC or the MM450/MM451 primer set followed by AsnI digestion analysis in order to identify M. mycoides subsp. mycoides LC. The data presented herein clearly show that M. mycoides subsp. mycoides SC infection was associated with seminal vesiculitis while M. mycoides subsp. mycoides LC was only found in bull semen from healthy control animals. Our findings confirm that the M. mycoides subsp. mycoides SC is shed in the sperm making the ejaculate a valuable biological sample for the isolation of these bacteria from serologically negative animals. Although the pathogenic role of M. bovigenitalium in bull seminal vesiculitis has been established, our clinical findings, semen characteristics, microbiological and bacterial genomic analysis strongly suggest that M. mycoides subsp. mycoides SC may contribute to induce vesicular adenitis in the bull.     

Rapid screening of H(2)O(2) production by Mycoplasma mycoides and differentiation of European subsp. mycoides SC (small colony) isolates

Mycoplasma mycoides strains were screened for the ability to produce H(2)O(2) from glucose and glycerol metabolism using rapid and simple colorimetric assays. In quantitative assays, H(2)O(2) production by washed cell suspensions was detected by the oxidation of o-dianisidine in the presence of peroxidase. In qualitative assays, a 3,3'-diaminobenzidine-peroxidase reagent was applied to colonies on agar plates. Both methods enabled differentiation of European subsp. mycoides SC (small colony) isolates from other M. mycoides strains by their inability to produce H(2)O(2) from glycerol metabolism. In addition, two strains of subsp. capri were identified which produced large amounts of H(2)O(2) from glucose oxidation. In lysed cells of these strains, NADH oxidation gave approximately 1 mol H(2)O(2) per mol NADH oxidised whereas in 36 subsp. mycoides and 10 other subsp. capri strains, the quantity produced was 0.01-0.20mol H(2)O(2) per mol NADH oxidised.     

Assessment of PCR for routine identification of species of the Mycoplasma mycoides cluster in ruminants

DNA amplification techniques offer considerable promise for the identification of Mycoplasma mycoides cluster members. They avoid antigenic cross-reactivity and variability that hamper serological methods. Many sets of primers, specific of these different members and of Mycoplasma putrefaciens, have been proposed. To assess the reliability of some of these PCR tests in routine laboratory diagnostic use, 230 field strains supposed to belong to this group were simultaneously identified by PCR and an antigenic method. The results were well correlated to antigenic identification for M. putrefaciens, but PCR failed to identify respectively 74% and 52% of M. mycoides subsp. mycoides Large Colony type and M. capricolum subsp. capricolum strains. Any identification of M. mycoides subsp. mycoides Small Colony type must be confirmed by two different tests. Difficulties in defining the M. species bovine serogroup 7 were also encountered with both the PCR and immunological methods. The occurrence of putative variable antigen(s) on the mycoplasma surface may explain part of the identification difficulties encountered with the immunological methods.     

Real-time polymerase chain reaction assays for the detection of members of the Mycoplasma mycoides cluster

AIM: To develop real-time PCR assays for the detection and differentiation of members of the Mycoplasma mycoides cluster. METHODS: Five real-time PCR assays were designed to allow differentiation of members of the M. mycoides cluster: an assay for detection of the M. mycoides subspecies, viz M. mycoides subsp mycoides large colony (MmmLC), M. mycoides subsp capri (Mmc), and M. mycoides subsp mycoides small colony (MmmSC); one for the detection of the M. capricolum subspecies, viz M. capricolum subsp capricolum (Mcc), M. capricolum subsp capripneumoniae (Mccp), and Mycoplasma sp bovine group 7 (BG7); and three for the specific detection of MmmSC, Mccp, and BG7. A panel of 74 Mycoplasma isolates from various geographical origins and a panel of 21 other bacterial isolates were used to evaluate the sensitivity and specificity of the assays. RESULTS: The assays displayed 100% analytical sensitivity in detecting all target Mycoplasma isolates. The analytical detection limit for the assays to detect the M. mycoides subspecies, M. capricolum subspecies, and MmmSC was determined to be 100 fg of genomic DNA, while the Mccp and BG7 assays had a detection limit of 100 fg and 10 fg of genomic DNA, respectively. The M. mycoides subspecies assay had a detection limit of 10(3) (SD 10(2)) cfu/ml milk, 10(4) (SD 10(4)) cfu per swab, and 10(3) (SD 10(3)) cfu/g lung in inoculated samples. The assays displayed 100% specificity when applied to non-target bacterial isolates and to 110 culture-negative milk samples. CONCLUSIONS: The assays were highly sensitive and specific, and provide accurate detection and differentiation of the members of the M. mycoides cluster.     

Screening of Hungarian cattle herds for Mycoplasma mycoides subspecies mycoides small colony infection with negative results

At abattoirs and farms, 1248 sera were collected from animals representing 121 farms, and examined by complement fixation test using Mycoplasma mycoides subspecies mycoides small colony type (MmmSC) antigen. All sera were negative except seven from four farms, giving ++ reactions in the serum dilution of 1:10. On retesting, these sera and additional 30 sera collected repeatedly in both farms gave negative results. In isolation attempts, 953 lung samples collected from slaughtered cattle at the same abattoirs, and 326 nasal swabs collected from 11 herds proved to be negative for the presence of MmmSC, but M. bovis was isolated frequently. In the small farms 23.95% of the animals had pleurisy and/or pneumonia while in the large herds 34.69% had lesions. DNA extracted from 50 nasal swabs and 430 lung samples was examined by polymerase chain reaction (PCR) using M. mycoides cluster-specific primers. DNA from further 325 lung samples was tested by the more specific M. mycoides subspecies mycoides small colony/large colony/capri specific primers and 196 samples by nested PCR specific for MmmSC. All gave negative results. The detection level of cluster-specific primers and the more specific primers was 33.4 pg of DNA, whereas that of nested PCR was 0.33 pg.     

Detection of Mycoplasma mycoides subspecies mycoides SC in bovine lung and lymph node tissues by culture, sandwich ELISA and polymerase chain reaction systems

Cattle from Northern Portugal, many with pulmonary lesions typical of contagious bovine pleuropneumonia, were investigated for the presence of Mycoplasma mycoides subspecies mycoides small colony (MmmSC), which is the causative agent of CBPP, with several detection tests. Sandwich ELISA that included a culture enrichment stage, and 2 different PCR diagnostic systems were used to detect MmmSC in lung and mediastinal lymph node tissues from these animals. The comparison of typical CBPP pathology with the results of detection revealed that no single one of these methods provided a perfect match to the pathological data. Best performing tests were the PCR with laser induced fluorescence and PCR with pleuroTRAP kit (Chemicon, Australia), which are diagnostic systems based on amplification of genomic MmmSC DNA followed by sensitive detection of the amplified products. These were followed by the broth-enriched sandwich ELISA, which uses a monoclonal antibody specific to the M. mycoides cluster, to capture the antigen.     

Contagious bovine pleuropneumonia (CBPP) caused by vaccine strain T1/44 of Mycoplasma mycoides subsp. mycoides SC

A study was carried out on four adult cattle to assess the pathogenicity of Mycoplasma mycoides subsp. mycoides SC strain T1/44, currently used as a vaccine for the control of contagious bovine pleuropneumonia (CBPP) in Namibia. Post mortem examination 9 weeks after endobronchial inoculation of the vaccine strain to three of the four animals revealed unilateral pleuropneumonic lesions, pleuritis and well-developed sequesters in two of the three inoculated animals and several small sequesters surrounded by pleuropneumonic lesions in the diaphragmatic and apical lobes in one animal. The fourth animal, which was not directly inoculated but was in close contact with the inoculated animals, revealed only an adhesion area of the lung to the ribcage. Serological examination carried out using the complement fixation test (CFT) detected positive titres in all three intubated animals and the indirect CBPP-LppQ-ELISA was positive for two of the three inoculated animals. The contact animal showed no seroconversion. M. mycoides subsp. mycoides SC was isolated from the sequesters of two of the inoculated animals. Isolation of mycoplasmas was not possible from the third inoculated animal due to heavy contamination of the samples by other bacteria, but the presence of M. mycoides subsp. mycoides SC could be evidenced by PCR from clinical samples. The identity of the T1/44 vaccine strain isolated from the sequesters of two animals was confirmed by T1/44-specific PCR analysis and by IS1296 typing using Southern blot. These results clearly show that inoculation of T1/44 vaccine via the endobronchial route can lead to CBPP.     

A simplified PCR method for genotyping Mycoplasma mycoides subspecies mycoides small colony: the aetiologic agent of contagious bovine pleuropneumonia

Mycoplasma mycoides subspecies mycoides small colony is the aetiological agent of contagious bovine pleuropneumonia, a cattle disease endemic to areas of sub-Saharan Africa. Twenty isolates from various geographical locations and the type strain were analysed by multi-locus sequence analysis (MLSA). The data generated was then used to develop three PCR primer sets to differentiate these isolates. The PCRs differentiated the isolates into four groups; the type strain (T); isolates of European origin (Eu); isolates from Tanzania (Af1) with a final group consisting of isolates from Namibia and Botswana (Af2). These PCRs offers a rapid and efficient post-identification typing method without the need to sequence and analyse multiple genes.     

A specific PCR for the identification of Mycoplasma capricolum subsp. capripneumoniae, the causative agent of contagious caprine pleuropneumonia (CCPP)

Contagious caprine pleuropneumonia is a severe infectious disease of goats in Africa and the Middle East. It is caused by a fastidious mycoplasma, Mycoplasma capricolum subsp. capripneumoniae, a member of the "M. mycoides cluster". Members of this cluster share genomic and antigenic features, which result in common biochemical and serological properties, complicating species identification. Two species of this cluster, M. mycoides subsp. capri and M. mycoides subsp. mycoides large colony biotype, are very often isolated from clinical cases resembling contagious caprine pleuropneumonia. Furthermore, in the laboratory, M. capricolum subsp. capripneumoniae can be easily confused with the closely related capricolum subspecies. Considering these constraints and the scarcity of available methods for identification, a specific polymerase chain reaction was developed. A DNA fragment of 7109 bp containing genes coding for the arginine deiminase pathway (ADI) was chosen as target sequence for the selection of a specific primer pair. The full ADI operon from M. capricolum subsp. capripneumoniae strain GL100 was sequenced. Polymorphism within this locus was analyzed by comparison with the sequence from the closely related IPX strain (M. capricolum subsp. capricolum). It varied from 0.6% to 3.5%. The highest divergence was found in a region coding for arcD. Therefore, this gene was chosen as target for the specific amplification of a 316 bp-long DNA fragment. The specificity of this PCR was validated on 14 M. capricolum subsp. capripneumoniae strains and 27 heterologous strains belonging to the "M. mycoides cluster" and M. putrefaciens. This new PCR will be a valuable tool for the surveillance of contagious caprine pleuropneumonia.     

丝状霉形体丝状亚种SC型脂蛋白LppQ N末端基因克隆与序列分析

脂蛋白LPPQ是丝状霉形体丝状亚种SC型(MmmSC)非洲株、欧洲株和疫苗株所特有的。LPPQ N末端域具有良好的免疫原性，在牛体内可诱导产生强大、特异、早期、持续的免疫反应。本研究根据已发表的LPPQ基因序列设计引物，用Pyrobest^TM高保真DNA聚合酶从MmmSC HVRI X株中扩增出了LPPQ N末端基因序列，并进行了克隆与序列测定。核苷酸序列比较结果显示，HVRI X株的LPPQ N末端基因序列与国外发表的序列同源性为99．7％，由其推导的氨基酸序列同源性为99，1％，为脂蛋白LPPQ N末端基因体外表达奠定了基础。     

Application of dot immunobinding on membrane filtration (MF dot) to the study of relationships within "M. mycoides cluster" and within "glucose and arginine-negative cluster" of ruminant mycoplasmas.

A total of 189 isolates from cattle, sheep and goats, allocated to two groups on biochemical grounds, have been examined by a dot immunobinding membrane-filtration (MF dot) method. Seventy glucose fermenting isolates, showing relationships with the "Mycoplasma mycoides cluster", have been compared by MF dot against polyclonal hyperimmunesera prepared against the following reference strains: M. mycoides subsp. mycoides, small colony type (SC), strain PG1 and large colony type (LC) strain Y Goat; M. capricolum strain California Kid (CK); M. species bovine serogroup 7 strain PG50, and, ovine/caprine serogroup 11 strain 2-D. The isolates fell into 5 main groups: (a) 14 serologically homogeneous isolates similar to subsp. mycoides SC PG1 (b) 4 homogeneous isolates similar to PG50 (c) 14 isolates all serologically similar to Y Goat, but heterogeneously reactive with subsp. capri PG3 and M. capricolum CK antisera (d) 7 isolates serologically similar to subsp. capri PG3, but heterogeneously reactive with subsp. mycoides SC PG1, M. capricolum CK and 2-D antisera (e) 28 isolates strongly reactive with both M. capricolum CK and serogroup 7 PG50 antisera. 119 isolates that were all glucose and arginine negative were also compared by the MF dot method with the reference strains. Most of these could be classified definitely as M. bovis (78 isolates), M. agalactiae (21 isolates) and serogroup 11 (5 isolates). 13 isolates gave a strong reaction with both M. bovigenitalium and serogroup p11 antisera. 2 isolates showed an unclassifiable pattern. The results confirm that the glucose and arginine-negative cluster strains that reacted with 2-D antiserum, also share serological relationships with the "M. mycoides cluster", albeit with a very heterogeneous pattern.