Chromosome rearrangements in Trypanosoma brucei

Chromosomal localization of seven cloned antigen genes provides evidence of diploidy and further demonstration of karyotype variability in Trypanosoma cruzi

The karyotype of Trypanosoma cruzi was studied by pulsed field gel electrophoresis (PFGE) in conditions that allowed 20-25 chromosome bands to be detected. However, several of these bands were present in non-equimolar amounts, suggesting that the total chromosome number is considerably higher. The patterns obtained with the different cloned and uncloned strains were unique, suggesting that the karyotype of T. cruzi is highly variable. The chromosomal localizations of seven cloned genes were determined by Southern blotting of PFGE-separated chromosomes. Three of the clones gave rise to similar patterns and mapped on a chromosome or a family of chromosomes larger than 1.6 Mb. Two clones mapped on either single or pairs of chromosomes, which in some cases differed considerably in size between the different strains tested, suggesting that extensive chromosome rearrangements occur in T. cruzi. Another clone hybridized to several chromosomes in most strains and probably represents a family of genes. Lastly, one clone hybridized to nearly all chromosomes. Many of the clones hybridized to pairs of restriction fragments in the different strains, suggesting that they are allelic. For one of the clones it was possible to provide further evidence for the allelic nature of the fragments by establishing detailed restriction maps around them and by showing that the two fragments in a pair hybridized to chromosomes which differed slightly in size. Taken together, the results infer that the genome of T. cruzi epimastigotes is diploid.

Dynamic changes of DNA sequences in Schistosoma mansoni in the course of development

Deletion and/or amplification of DNA sequences in Schistosoma mansoni were demonstrated by Southern blot analysis. Total cellular DNAs and genomic clones derived from S. mansoni miracidia, adult males and females were used as probes. Endonuclease BamHI-restricted DNAs from miracidia, adult males and females of both S. mansoni and S. japonicum were reacted to each probe. Hybridization with a total cellular DNA from S. mansoni miracidia as a probe showed elimination of signals in S. mansoni adults. On the other hand, blot analysis using a total cellular DNA from S. mansoni adult males as a probe revealed elimination of hybridization signals in S. mansoni miracidia. Hybridization with a clone SmE15 DNA from S. mansoni miracidia as a probe showed no signal in the DNAs from S. mansoni adults, indicating these sequences deleted in adults. Hybridization experiments using the probes SmF25 and SmM51 which are 1.3 and 2.2 kb fragments cloned from S. mansoni adult females and males respectively, demonstrated no signal to DNA from S. mansoni miracidia. Our data suggested the existence of stage-specific DNA sequences in S. mansoni. We propose a model for multiple-step rearrangement of DNA sequences in S. mansoni during the course of development.

Genomic organization, chromosomal localization, and developmentally regulated expression of the glycosyl-phosphatidylinositol-specific phospholipase C of Trypanosoma brucei

The surface of the bloodstream form of the African trypanosome, Trypansoma brucei, is covered with about 10(7) molecules of the variant surface glycoprotein (VSG), a protein tethered to the plasma membrane by a glycosyl-phosphatidylinositol (GPI) membrane anchor. This anchor is cleavable by an endogenous GPI-specific phospholipase C (GPI-PLC). GPI-PLC activity is down regulated when trypanosomes differentiate from the bloodstream form to the procyclic form found in the tsetse fly vector. We have mapped the GPI-PLC locus in the trypanosome genome and have examined the mechanism for this developmental regulation in T. brucei. Southern blot analysis indicates a single-copy gene for GPI-PLC, with two allelic variants distinguishable by two NcoI restriction fragment length polymorphisms. The gene was localized solely to a chromosome in the two-megabase compression region by contour-clamped homogeneous electric field gel electrophoresis. No rearrangement of the GPI-PLC gene occurs during differentiation to procyclic forms, which could potentially silence GPI-PLC gene expression. Enzymological studies give no indication of a diffusible inhibitor of GPI-PLC activity in procyclic forms, and Western immunoblot analysis reveals no detectable GPI-PLC polypeptide in these forms. Therefore, it is highly unlikely that the absence of GPI-PLC activity in procyclic forms is due to posttranslational control. Northern (RNA) blot analysis reveals barely detectable levels of GPI-PLC mRNA in procyclic forms; therefore, regulation of GPI-PLC activity in these forms correlates with the steady-state mRNA level.

Genomic organization, chromosomal localization, and developmentally regulated expression of the glycosyl-phosphatidylinositol-specific phospholipase C of Trypanosoma brucei

The surface of the bloodstream form of the African trypanosome, Trypansoma brucei, is covered with about 10(7) molecules of the variant surface glycoprotein (VSG), a protein tethered to the plasma membrane by a glycosyl-phosphatidylinositol (GPI) membrane anchor. This anchor is cleavable by an endogenous GPI-specific phospholipase C (GPI-PLC). GPI-PLC activity is down regulated when trypanosomes differentiate from the bloodstream form to the procyclic form found in the tsetse fly vector. We have mapped the GPI-PLC locus in the trypanosome genome and have examined the mechanism for this developmental regulation in T. brucei. Southern blot analysis indicates a single-copy gene for GPI-PLC, with two allelic variants distinguishable by two NcoI restriction fragment length polymorphisms. The gene was localized solely to a chromosome in the two-megabase compression region by contour-clamped homogeneous electric field gel electrophoresis. No rearrangement of the GPI-PLC gene occurs during differentiation to procyclic forms, which could potentially silence GPI-PLC gene expression. Enzymological studies give no indication of a diffusible inhibitor of GPI-PLC activity in procyclic forms, and Western immunoblot analysis reveals no detectable GPI-PLC polypeptide in these forms. Therefore, it is highly unlikely that the absence of GPI-PLC activity in procyclic forms is due to posttranslational control. Northern (RNA) blot analysis reveals barely detectable levels of GPI-PLC mRNA in procyclic forms; therefore, regulation of GPI-PLC activity in these forms correlates with the steady-state mRNA level.

Powerful immunosuppression mediated by interleukin 2-activated, nonantigen-specific, or H-2-restricted THY-1+ CD8+ cells

Normal spleen cells cultured in high or low concentrations of interleukin (IL) 2 for 3 days contain Thy-1+ CD4- CD8+ cells that powerfully suppress primary but not ongoing or active lymphocyte responses. The precursors of these cells are Thy-1+ AGM-1- and are absent or present in greatly diminished numbers in athymic and scid mice. Suppression is neither antigen nor H-2 restricted and apparently results from reversible inactivation of resting lymphocytes. Comparable Thy-1+ CD8+ suppressor cells were also recovered from normal spleen cells cultured for 3 days with anti-CD3 antibody without added IL-2, indicating that these cells can be activated during the course of immune responses. Such cells may prevent local recruitment/activation of lymphocytes specific for new epitopes that may be expressed sequentially by proliferating tumor cells or infectious organisms.

Glucosephosphate isomerase from Trypanosoma brucei. Cloning and characterization of the gene and analysis of the enzyme

In Trypanosoma brucei the enzyme glucose-6-phosphate isomerase, like most other enzymes of the glycolytic pathway, resides in a microbody-like organelle, the glycosome. Here we report a detailed study of this enzyme, involving a determination of its kinetic properties and the cloning and sequence analysis of its gene. The gene codes for a polypeptide of 606 amino acids, with a calculated Mr of 67280. The protein predicted from the gene sequence has 54-58% positional identity with its yeast and mammalian counterparts. Compared to those other glucose-6-phosphate isomerases the trypanosomal enzyme contains an additional 38-49 amino acids in its N-terminal domain, as well as a number of small insertions and deletions. The additional amino acids are responsible for the 5-kDa-larger subunit mass of the T. brucei enzyme, as measured by gel electrophoresis. The glucose-6-phosphate isomerase of the trypanosome has no excess of positive residues and, consequently, no high isoelectric point, in contrast to the other glycolytic enzymes that are present in the glycosome. However, similar to other glycosomal proteins analyzed so far, specific clusters of positive residues can be recognized in the primary structure. Comparison of the kinetic properties of the T. brucei glucose-6-phosphate isomerase with those of the yeast and rabbit muscle enzymes did not reveal major differences. The three enzymes have very similar pH profiles. The affinity for the substrate fructose 6-phosphate (Km = 0.122 mM) and the inhibition constant for the competitive inhibitor gluconate 6-phosphate (Ki = 0.14 mM) are in the same range as those of the similar enzymes. The Km shows the same strong dependence on salt as the rabbit muscle enzyme, although somewhat less than the yeast glucose-6-phosphate isomerase. The trypanocidal drug suramin inhibits the T. brucei and yeast enzymes to the same extent (Ki = 0.29 and 0.36 mM, respectively), but it had no effect on the rabbit muscle enzyme. Agaricic acid, a potent inhibitor of various glycosomal enzymes of T. brucei, has also a strong, irreversible effect on glucose-6-phosphate isomerase, while leaving the yeast and mammalian enzymes relatively unaffected.

Geographic variation in Giardia karyotypes

Chromosomes of 41 stocks of Giardia duodenalis derived from humans and 14 stocks from other animal species were analysed by field inversion gel electrophoresis (FIGE). These stocks have two predominant karyotypes as judged by FIGE which appear to fit a geographic distribution. Under FIGE conditions used to optimize the detection of size variation in Giardia chromosomes, five or six major chromosomes could be identified. Most of the stocks derived from North America have three major chromosomes smaller than 800 kb while most of the Australian stocks have four. A few exceptions, and minor variations, of these karyotypes were observed. It was estimated that not all of the DNA entered the gel, the remainder being trapped conformations or very large chromosomes. Karyotypes of Giardia stocks from different animal hosts and human sources within a geographical region are similar.

Expression of a bacterial gene in a trypanosomatid protozoan

A simple and reproducible assay for DNA-mediated transfection in the trypanosomatid protozoan Leptomonas seymouri has been developed. The assay is based on expression of the Escherichia coli chloramphenicol acetyl transferase (CAT) gene flanked by Leptomonas DNA fragments that are likely to contain necessary elements for gene expression in trypanosomes. After electroporation of cells in the presence of plasmid DNA, CAT activity was detected in crude cell lysates. No activity was detected when the orientation of the L. seymouri mini-exon sequence (placed upstream of the CAT gene) was reversed, or in additional control experiments. This system provides a method for defining transcriptional control elements in trypanosomes.

DNA electrophoresis

The migration of a series of supercoiled plasmids ranging in size from 4 to 91 kilobases (kb) has been analyzed by orthogonal-field-alternation gel electrophoresis (OFAGE). These circular DNAs enter OFAGE gels and are resolved over the same region of the gel as linear DNAs from 260 to 2200 kb. Furthermore, a distinct triphasic migration pattern was observed for the supercoiled DNAs. The migration of plasmids between 6 and 20, and 60 and 91 kb is inversely proportional to size, whereas the mobilities of plasmids between 20 and 60 kb increase with size. Unlike linear DNA molecules, the relative mobilities of these plasmids are constant over a broad range of pulse times, from 10 to 120s. Electrophoresis of supercoiled, relaxed, and nicked open circular forms as well as topoisomers of small plasmids shows that the extent of supercoiling has a dramatic effect on plasmid migration on OFAGE. Several practical applications for exploiting the different migration properties of circular and linear DNA molecules on OFAGE are presented.

Improved separation of chromosome-sized DNA from Trypanosoma brucei, stock 427-60

Separation of chromosome-sized DNA from the parasitic protozoan Trypanosoma brucei had previously resulted in the fractionation of DNA molecules that ranged in size from 50 kb up to roughly 1.5 Mb. The number of larger chromosomes and their size, accounting for 80% of the DNA of T. brucei remained unclear. We have now size separated these larger DNA molecules by pulsed field gel electrophoresis (PFG) and resolve a total of 20 bands, accounting for roughly 120 chromosomes, ranging in size from 50 kb up to the size of the largest, 5.7 Mb chromosome of Schizosaccharomyces pombe. Three different VSG gene expression sites were located to chromosomes of 430 kb, 1.5 Mb and 3 Mb, respectively. We have not been able to identify additional, previously cryptic DNA rearrangements, that could explain the activation or inactivation of the expression sites.

Trypanosoma brucei: conserved sequence organization 3' to telomeric variant surface glycoprotein genes

We have previously postulated that telomeric variant surface glycoprotein (VSG) genes in Trypanosoma brucei serve more frequently than intrachromosomal VSG genes as basic copies for gene conversion. To examine this further we determined the sequence for approximately 1200 nucleotides 3' to the telomeric IsTat 1 VSG gene, expressed in early variant antigenic types, and compared this sequence with those 3' to other VSG genes. We found that about 200 nucleotides immediately 3' to the 1 VSG gene are homologous to sequences immediately 3' to other telomeric VSG genes. These sequences may function in extended duplex formation 3' to telomeric VSG genes and partially explain their more frequent gene conversion. In addition, further 3' is a highly conserved 49 bp direct repeat, which is not transcribed into stable RNA. These sequences appear to be conserved in various T. brucei stocks, and we have therefore proposed a model which is a modification of one previously proposed (E. H. Blackburn and P. B. Challoner, 1984, Cell, 36, 447-457; L. H. T. Van der Ploeg, A. Y. C. Liu, and P. Borst, 1984, Cell, 36, 459-468) for the sequence organization of a trypanosome telomeric region.

A 5' exo-ribonuclease and RNA ligase of T. brucei

We identified a Mg2+ dependent 5' exo-ribonuclease and an RNA ligase in cell-free extracts of Trypanosome brucei. The exo-ribonuclease in S100 or nuclear extracts, removes about 20 nts from the 5' end of SP6 derived capped as well as uncapped RNA and then stops. In contrast to the activity of the exo-ribonuclease on capped SP6 mini-exon transcripts, the exonuclease cannot degrade trypanosome-derived mini-exon transcripts or the mini-exon located at hsp 70 mRNAs. We therefore assume that the four secondary base modifications adjacent to the mini-exon cap, generated in vivo, confer resistance to the exo-ribonuclease. After exonuclease shortening of SP6 transcripts, an RNA ligase catalizes intramolecular ligation, generating a 3'-5' phosphodiester bond in a Mg2+ and ATP dependent reaction.

Discontinuous transcription in Leptomonas seymouri: presence of intact and interrupted mini-exon gene families

Mature mRNAs of trypanosomatid protozoa result from the joining of at least two exons, which are initially transcribed as separate RNAs. In all trypanosomatids examined to date, the first exon (mini-exon) is encoded by approximately 200 tandemly reiterated genes. In characterizing the mini-exon genes of Leptomonas seymouri, we identified two predominant size classes of repetitive sequences that hybridized strongly to the L. seymouri mini-exon sequence. These two sequences are arranged as interspersed clusters. DNA sequence analysis of a clone representing the smaller size class demonstrated that these sequences have the capacity to encode a mini-exon donor (med)RNA corresponding to the 86 nt component seen in Northern blots of L. seymouri RNA. The larger size class comprises a family of related sequences, some of which contain DNA inserted into the mini-exon portion of the medRNA gene. The specific insert identified here (LINS 1) is exclusively associated with medRNA sequences, and is present in approximately 20% of the larger size class of L. seymouri medRNA genes. Disregarding the insertion, the sequences of the smaller bona fide mini-exon genes and the gene copy containing the insert were almost identical. The insert sequence is transcribed in the same direction as medRNA to yield at least four small non-polyadenylated RNAs, which appeared not to be linked to medRNA sequences.

The chromosome profiles of Trypanosoma congolense isolates from Kilifi, Kenya and their relationship to serodeme identity

Chromosomal DNA from 117 Trypanosoma congolense clones from 54 stocks, isolated from cattle introduced onto a ranch in Kilifi in the coastal area of Kenya, was fractionated by the orthogonal field alternation gel electrophoresis technique. The technique resolved chromosomes in the size range of 100 kb-1 Mb. The chromosome profile for cloned trypanosome populations was relatively stable with regard to number and size of the chromosome bands following transmission in mice, cattle, goats or tsetse flies. Only in one clone was a shift observed in the position of one medium-sized chromosome band following cyclical development in tsetse. On the basis of their chromosome profiles, the 117 clones could be divided into 18 distinct groups. Representative clones, randomly selected from 7 of the 18 chromosome profile groups were inoculated into steers and goats in order to raise variable antigen type (VAT) repertoire-specific infection sera. Cross-neutralization assays demonstrated that recovery sera from animals infected with a clone neutralized all the clones with an identical chromosome profile. This suggests that clones having an identical chromosome profile also express an identical VAT-repertoire (serodeme).

Insertion of transformation vector DNA into different chromosomal sites of Dictyostelium discoideum as determined by pulse field electrophoresis

Chromosomes of the cellular slime mold Dictyostelium discoideum were fractionated on three pulse field gel electrophoresis systems (pulse field, orthogonal field and C.H.E.F. (Contour-clamped Homogeneous Electric Fields] into a series of 13 bands ranging from 0.1 Mb to over 2 Mb in size. Since this organism has only seven chromosomes (estimated to be 1-10 Mb), and -90 copies of an 88-kilobase linear ribosomal DNA molecule (14% of genome), it was apparent that not all of these bands were whole chromosomes. However these bands were reproducibly obtained with the cell preparation used. They fell into three categories: i) four large poorly resolved DNA molecules (-2 Mb in size) which represent very large fragments or intact chromosomes, ii) eight faint bands ranging from 0.1 Mb to 2 Mb, iii) a prominent band in the apparent size range of about 0.15 Mb. Cloned Fragment V of an EcoR1 digest of the ribosomal DNA, hybridized to the 0.15 Mb band indicating it contained the linear ribosomal DNA. This chromosomal banding pattern was used to examine the stability and location of vector DNA in 16 transformed strains of D. discoideum. Each transformed strain was initially selected on the basis of G418 resistance with an integrating vector containing pBR322 sequences. Eleven transformants still carried pBR322 sequences after more than 60 generations of growth without selection on G418. All four strains transformed with constructs containing regions of the D. discoideum plasmid Ddp1 had lost their pBR322 insert, indicating that integration of Dictyostelium plasmid DNA into chromosomes leads to instability. Orthogonal field electrophoresis of the eleven strains still carrying pBR322 sequences revealed at least seven different integrating sites for the transforming DNA. We conclude that these vectors have many possible sites of integration in the D. discoideum genome.

Parameters of field inversion gel electrophoresis for the analysis of pox virus genomes

The effects of variation in the lengths of forward and reverse pulses, voltage gradient, gel concentration and gel temperature on the mobility of DNA molecules in agarose gels during field inversion gel electrophoresis (FIGE) have been determined. A curve, which best fits the empirical data, is presented and allows the choice of pulse conditions and voltage gradient most suitable for the resolution of molecules of chosen size. The use of FIGE in the analysis and direct mapping of large virus genomes is illustrated using vaccinia virus DNA.

Post-transcriptional control of the differential expression of phosphoglycerate kinase genes in Trypanosoma brucei

The genes for the cytosolic and glycosomal phosphoglycerate kinases (PGK) of Trypanosoma brucei are found in a compact tandem array together with a third PGK-related gene, expressed at low level. Expression of the two PGK genes is differentially regulated in the life cycle of T. brucei: the glycosomal PGK and its mRNA are abundant in the mammalian stage of the cycle but not in the insect stage, whereas the reverse is found for the cytosolic PGK and its mRNA. Nevertheless, our experiments indicate that the mRNAs for both isoenzymes are derived from a common precursor. Nuclease protection experiments using fragments cloned into single-stranded DNA vectors show the presence of low abundance RNA species running through one gene into the next. Indeed minor RNA species larger than the mature mRNAs are visible in overexposed RNA blots. Analysis of nascent RNA in a nuclear run-on assay indicates that the entire PGK gene array is transcribed at an equal rate throughout in both life cycle stages. We conclude that the PGK genes are part of one large multicistronic transcription unit, which is processed to yield the individual mRNAs with concomitant addition of the 5' 35-nucleotide mini-exon sequence, characteristic of all trypanosome mRNAs. It follows that the steady-state levels of the PGK mRNAs are controlled post-transcriptionally.

Stable variant-specific transcripts of the variant cell surface glycoprotein gene 1.8 expression site in Trypanosoma brucei

The structure and transcriptional regulation of the 1.8 variant cell surface glycoprotein (VSG) gene expression site located on a 430-kilobase (kb) chromosome was examined in a 430-kb-chromosome-specific library. Using 32P-labeled nascent transcripts generated by nuclear run-on, we selected recombinant clones derived from the 430-kb chromosome which were coordinately activated with the 1.8 VSG gene. The results show that a repetitive region with a minimum size of 27 kb is coordinately activated with the 1.8 VSG gene. As with the 1.8 VSG gene, transcription is by RNA polymerases that are insensitive to the drug alpha-amanitin at concentrations up to 1 mg/ml. Transcription results in the generation of several stable variant-specific mRNAs. These mRNAs most likely belong to a family of repetitive expression-site-associated genes.

Isolation of a higher eukaryotic telomere from Arabidopsis thaliana

We have developed a method for constructing genomic libraries enriched for telomeric DNA sequences, enabling the isolation of telomeres from higher eukaryotic organisms with large chromosomes. The method was used to clone telomeric DNA sequences from the flowering plant Arabidopsis thaliana. A. thaliana telomeres are composed primarily of tandemly repeated blocks of the sequence 5'-CCCTAAA-3' and are heterogeneous in size. Genomic sequences that cross-hybridize at high stringency with A. thaliana telomeric repeats are present in other higher plants. In Zea mays (corn), these cross-hybridizing sequences are located at the telomeres. In addition, the A. thaliana telomeric repeats cross-hybridize at low stringency to genomic sequences located at the telomeres of human chromosomes.

Opaque-white phenotype transition: a programmed morphological transition in Candida albicans

This paper reports that the opaque and white phenotypes of Candida albicans constitute a true high-frequency reversible transition system. The rDNA restriction fragment and orthogonal field alternating gel electrophoresis profiles of opaque and white phenotypes are indistinguishable, and a genetic marker introduced into a white strain is present in all opaque derivatives of this strain. Opaque and white derivatives appear markedly different on a bismuth indicator medium and differ in a number of other respects. We have used bismuth medium to examine the spontaneous and temperature-induced frequencies of transition from opaque to white. The temperature-induced transition from opaque to white does not occur when opaque cells are held in water.

Stable variant-specific transcripts of the variant cell surface glycoprotein gene 1.8 expression site in Trypanosoma brucei

The structure and transcriptional regulation of the 1.8 variant cell surface glycoprotein (VSG) gene expression site located on a 430-kilobase (kb) chromosome was examined in a 430-kb-chromosome-specific library. Using 32P-labeled nascent transcripts generated by nuclear run-on, we selected recombinant clones derived from the 430-kb chromosome which were coordinately activated with the 1.8 VSG gene. The results show that a repetitive region with a minimum size of 27 kb is coordinately activated with the 1.8 VSG gene. As with the 1.8 VSG gene, transcription is by RNA polymerases that are insensitive to the drug alpha-amanitin at concentrations up to 1 mg/ml. Transcription results in the generation of several stable variant-specific mRNAs. These mRNAs most likely belong to a family of repetitive expression-site-associated genes.

The anatomy and transcription of a telomeric expression site for variant-specific surface antigens in T. brucei

The variant specific surface glycoprotein (VSG) genes of T. brucei are expressed in telomeric expression sites. We have determined the structure of the active site in trypanosome variant 221a, which contains VSG gene 221, by analysis of cloned DNA segments that represent 65 kb of the 5'-flanking region of the VSG gene. In nuclear run-on experiments, 57 kb of adjacent sequences are cotranscribed with the VSG gene at approximately similar rates and in the alpha-amanitin-resistant manner characteristic of VSG genes. Besides the VSG mRNA, this expression site yields at least seven stable RNAs, suggesting that it is a multicistronic transcription unit. Our results also show that insertion of a transcriptional terminator is not the general mechanism of switching off expression sites.

Trypanosoma brucei variant-specific glycoprotein gene chromatin is sensitive to single-strand-specific endonuclease digestion

Active variant surface glycoprotein (VSG) gene chromatin is preferentially digested by the restriction enzyme HinfI in nuclei of bloodstream variants of Trypanosoma brucei. HinfI sensitivity of VSG gene chromatin is not observed in nuclei of relapse variants in which the VSG gene has been inactivated in situ. Active VSG gene chromatin is preferentially degraded by the single-strand-specific endonucleases S1 and Bal31. This sensitivity is not the result of pre-existing single-strand breaks or a detectably altered nucleosomal organization. Trypanosome nuclei in which the run-on transcription of VSG genes has been specifically shut down have been used to show that Hinfl and Bal31 sensitivity is not dependent upon continued transcription of the VSG gene. The presence of single-stranded DNA regions within VSG gene chromatin is consistent with a model in which VSG genes are activated by increased torsional stress.

Molecular karyotype of five species of Leishmania and analysis of gene locations and chromosomal rearrangements

The molecular karyotypes of five species of Leishmania were studied by pulsed field gradient gel electrophoresis (PFGGE) of chromosome-sized DNA bands. Each species exhibits a unique pattern of 22-28 bands in the size range approximately 200-2200 kb whereas strains of one species exhibit similar karyotypes. Analysis of the behaviour of kinetoplast DNA during PFGGE showed that minicircle DNA remains confined to the gel slot but a proportion of the maxicircle DNA fractionates as a low molecular weight band below band 1. The band location of genes for alpha and beta tubulin, the 5' spliced leader sequence (5'SL), heat shock proteins 70 (hsp 70) and 83 (hsp 83) and thymidylate synthase-dihydrofolate reductase (TS-DHFR) were analysed. Housekeeping genes are not clustered in Leishmania but are found on at least 7 bands in L. major. The hsp 83 gene is linked to the tandemly repeated beta tubulin allele on band 21 in L. major. Among different species, the location of the unlinked hsp 83 and hsp 70 genes is conserved whereas the TS-DHFR and 5'SL sequences are found on bands of varying size. The 5'SL gene may be rearranged in L. enriettii and two 5'SL loci were identified in L. donovani and L. tropica. The conservation of loci in strains of L. major suggests that the chromosomal genetic linkage map should be a reliable marker for identifying unknown isolates of Leishmania. Sequences on one band in L. mexicana sp. were shared among several bands and distributed on homologous and non-homologous bands in other species showing that DNA sequences are rearranged during speciation in Leishmania.

VSG gene 118 is transcribed from a cotransposed pol I-like promoter

To understand the control of differential variant cell surface glycoprotein (VSG) gene expression in T. brucei, we studied VSG gene and expression site transcription regulation. We show that the interchromosomal duplicative transposition of VSG gene 118, on an unusually large transposed segment, results in the transcriptional activation of a cotransposed RNA polymerase I-like (pol I) promoter, from which the VSG gene is transcribed. Transcription of VSG genes by pol I can therefore be regulated by DNA rearrangements that affect positional control of gene expression. A 5' cap is added in trans to the pol I-derived pre-mRNA, by addition of a pol II-derived 35 nucleotide mini-exon. A second gene (ESAG1) is located 25 kb upstream of the VSG 118 gene and is also transcribed. This expression site therefore contains at least two independently regulated genes. We discuss the putative importance of a nucleolar location for VSG gene and expression site transcription regulation.

Ingi, a 5.2-kb dispersed sequence element from Trypanosoma brucei that carries half of a smaller mobile element at either end and has homology with mammalian LINEs

A dispersed repetitive element named ingi, which is present in the genome of the protozoan parasite Trypanosoma brucei, is described. One complete 5.2-kilobase element and the ends of two others were sequenced. There were no direct or inverted terminal repeats. Rather, the ends consisted of two halves of a previously described 512-base-pair transposable element (G. Hasan, M.J. Turner, and J.S. Cordingley, Cell 37:333-341, 1984). Oligo(dA) tails and possible insertion site duplications suggested that ingi is a retroposon. The sequenced element appears to be a pseudogene copy of an original retroposon with one or more open reading frames occupying most of its length. Significant homologies of the encoded amino acid sequences with reverse transcriptases and mammalian long interpersed nuclear element sequences suggest a remote evolutionary origin for this kind of retroposon.

Structure and sequence of the H surface protein gene of Paramecium and comparison with related genes

The serotype H immobilization antigen (H i-ag) gene of Paramecium tetraurelia was isolated from a genomic library by screening with the H i-ag transcript. The gene is 7.5 kb long and contains no introns. Similar to other i-ag genes, it does not undergo rearrangement or duplication upon expression. In contrast, only the H i-ag gene appears to be non-adjacent to a telomere. Sequence comparisons between the H, A, and C i-ag genes of stock 51 and the G i-ag gene of stock 156 identify conserved upstream sites and extensive homology in the 3' non-coding region. Several of these sites may be involved in regulating the expression of the i-ags. Segments of amino acid homology among these genes are also predicted by the DNA sequences.

DNA contents and molecular karyotypes of hybrid Trypanosoma brucei

We have used restriction fragment length polymorphism markers to characterise parental and hybrid trypanosome stocks. Unexpected differences in the intensities of Southern hybridisation banding patterns led us to suspect that the hybrid organisms contained more DNA than the parental stocks. This has been confirmed using flow cytofluorimetry (FCF). Hybrids contained significantly more DNA than the parents, both as procyclic organisms (1.5 fold) and as bloodstream forms (1.5-1.6 fold). The DNA contents of both forms were stable through prolonged culture (procyclics), or serial passage (bloodstream forms), although limited data indicated that falls in DNA content could occur in bloodstream forms. FCF analysis of purified nuclei revealed that the increased DNA content of hybrids could be wholly ascribed to nuclear DNA. Our methods are able to detect hybrid organisms with elevated DNA contents in uncloned isolates following cyclical mixed transmission. We have used alternating field electrophoresis techniques to investigate whether the inheritance by the hybrids of the smaller chromosomes could account for their elevated DNA contents. Hybrids lacked the single 500 kb chromosome from one of the parents but appeared to have virtually double the amount of minichromosomes. However, this increase could only account for about 20% of the additional DNA. We are unable at present to distinguish between models for hybrid formation based on the fusion of predominantly diploid cells, and models in which the diploid chromosomes participate in conventional meiosis.

Genomic organization, chromosomal location and transcription of dispersed and repeated tubulin genes in Leishmania major

The alpha and beta tubulin genes of Leishmania major were cloned and used to study the genomic organization, chromosomal location and transcription of tubulin genes in L. major. The number of beta tubulin isogenes was determined by hybridization of probes representing the 5' and 3' ends of the cloned beta tubulin cDNA sequence to genomic Southern blots which showed that four complete isogenes exist on Ava1 fragments of size 4.4, 3.9, 1.85 and 1.7 kilobase pairs (kb). These genes are present at a relative ratio of 1:18:3:1 with the 3.9 kb fragment being tandemly repeated. The chromosomal location of each tubulin isogene was studied by purification of individual chromosomes fractionated by pulsed field gradient (PFG) gel electrophoresis. Using an improved PFG procedure, L. major contains at least 23 chromosome-sized bands some of which are present in non-stoichiometric amounts, suggesting that there are more than 23 individual chromosomes. The alpha tubulin genes are located on chromosome 9. The 3.9 kb beta tubulin cluster and the 1.7 kb isogene are linked on chromosome 21 and two dispersed beta tubulin isogenes exist on chromosomes 7 and 13. Thus, three non-allelic beta tubulin loci exist in L. major. Analysis of tubulin transcripts revealed a single abundant alpha tubulin RNA (2050 nucleotides, nt) but three abundant beta tubulin RNAs (2200, 2800, 3400 nt). The 2200 nt RNA is transcribed from the tandemly clustered beta tubulin isogene on chromosome 21. The 2800 nt and 3400 nt RNAs appear to represent additional transcripts from one or both of the dispersed beta tubulin isogenes on chromosomes 13 and 7.

Genetic rearrangements and gene amplification in Escherichia coli: DNA sequences at the junctures of amplified gene fusions

We describe gene fusions that result from genetic duplications of 5-20 kb, which are amplified 50- to 100-fold. Because one end point of the fusion lies within the sequenced lacI gene, the new junctures created by the duplications are readily identified. Using a procedure for dideoxy sequencing of double-stranded DNA, we show that the duplications occur almost exclusively at short sequence repeats (less than 15 bp), sometimes involving broken homologies, in the 30 cases examined. Most of the duplications place the lacI-Z encoded hybrid repressor-beta-galactosidase protein under the control of a downstream promoter, resulting in the production of a more complex hybrid protein with beta-galactosidase activity. In some cases the fusion occurs with the lacY or the lacA gene, which suggests that silent promoters can be uncovered by gene fusion and subsequent amplification. In some ways this system represents a bacterial analog to chromosomal rearrangements of oncogenes in higher cells, since here the expression of a silent gene is the result of a genetic rearrangement that is followed by amplification during selected growth.

Frequent independent duplicative transpositions activate a single VSG gene

The expression of several surface antigen genes in Trypanosoma brucei is mediated by the duplicative transposition of a basic-copy variant surface glycoprotein (VSG) gene into an expression site. We determined that the appearance of variant 118, in a parasitemia, resulted from at least four independent duplicative transpositions of the same VSG 118 gene. Variants 117 and 118 both appeared at specific periods but resulted from multiple independent activations. Antigenic variants thus occur in an ordered manner. We show that in the duplicative transpositions of VSG genes, the ends of the transposed segments were homologous between the basic copy and the expression site. Sequences other than the previously reported 70-base-pair (bp) repeats could be involved. In one variant, 118 clone 1, the homology was between a sequence previously transposed into the expression site and a sequence located 6 kilobases upstream of the VSG 118 gene. In variant 118b the homology was presumably in 70-bp repeat arrays, while in a third 118 variant yet another sequence was involved. The possibility that the 70-bp repeats are important in the initial steps of the recombinational events was illustrated by a rearrangement involving a 70-bp repeat array. The data provide strong evidence for the notion that gene conversion mediates the duplicative transposition of VSG genes. We discuss a model that explains how the process of duplicative transposition can occur at random and still produce an ordered appearance of variants.

Ingi, a 5.2-kb dispersed sequence element from Trypanosoma brucei that carries half of a smaller mobile element at either end and has homology with mammalian LINEs

A dispersed repetitive element named ingi, which is present in the genome of the protozoan parasite Trypanosoma brucei, is described. One complete 5.2-kilobase element and the ends of two others were sequenced. There were no direct or inverted terminal repeats. Rather, the ends consisted of two halves of a previously described 512-base-pair transposable element (G. Hasan, M.J. Turner, and J.S. Cordingley, Cell 37:333-341, 1984). Oligo(dA) tails and possible insertion site duplications suggested that ingi is a retroposon. The sequenced element appears to be a pseudogene copy of an original retroposon with one or more open reading frames occupying most of its length. Significant homologies of the encoded amino acid sequences with reverse transcriptases and mammalian long interpersed nuclear element sequences suggest a remote evolutionary origin for this kind of retroposon.

Conserved sequences and transcription of the hsp70 gene family in Trypanosoma brucei

Five Trypanosoma brucei 70-kilodalton heat shock protein-encoding genes (hsp70 genes) were found to be arranged in a tandem array. These hsp70 genes are separated by highly conserved intergenic region sequences of 200 base pairs for one gene and 234 base pairs for the other four genes. This intergenic region sequence is also present in front of the first gene of the tandem array, though at a further distance. All five conserved intergenic regions have sequences that are homologous to the eucaryotic control elements, essential for temperature-induced initiation of transcription by polymerase II. In addition, there is a T-rich region at the 3' end of the hsp70 genes which is homologous to the site of transcription termination of mini-exon genes. Immediately 3' of a putative TATA box, a branch point consensus sequence and six sequences homologous to known trypanosome 3' splice sites were found. It is therefore possible that a PolII promoter is present in the intergenic region sequence. Addition of the 35-nucleotide mini-exon to the hsp70 transcript could thus be mediated by bimolecular splicing. The importance of temperature control for development was illustrated by the response of variant surface glycoprotein-encoding genes to heat shock.

Cloning and characterization of a variant surface glycoprotein expression site from Trypanosoma equiperdum

Variant surface glycoprotein (VSG) genes of African trypanosomes are expressed when they are inserted into one of several telomere-linked expression sites. We cloned and characterized an 11-kilobase (kb) DNA fragment located upstream of an expressed VSG gene. A DNA sequence of 1.8 kb that is located immediately upstream of the inserted VSG gene contains sequences homologous to the 76-base-pair repeats described as being upstream of VSG genes in Trypanosoma brucei (D. A. Campbell, M. P. Van Bree, and J. C. Boothroyd, Nucleic Acids Res. 12:2759-2774). There are no such sequences elsewhere in the 11-kb cloned region. Southern blot analysis using probes from the cloned region revealed multiple unlinked copies of the same or very similar regions. At least three of these are located near telomeres, and two have been shown to be used for the expression of known Trypanosoma equiperdum VSG genes. Like VSG genes, the upstream sequences themselves can be duplicated and deleted. The choice of expression site to be used by a duplicated VSG gene is nonrandom; the site used for expression of the parental VSG gene is strongly favored for use in the daughter variant. Furthermore, even when the parental expression site is not used, the VSG gene occupying it is replaced. Thus, an active expression site is a preferential target for gene conversion in the next variation event.

Frequent independent duplicative transpositions activate a single VSG gene

The expression of several surface antigen genes in Trypanosoma brucei is mediated by the duplicative transposition of a basic-copy variant surface glycoprotein (VSG) gene into an expression site. We determined that the appearance of variant 118, in a parasitemia, resulted from at least four independent duplicative transpositions of the same VSG 118 gene. Variants 117 and 118 both appeared at specific periods but resulted from multiple independent activations. Antigenic variants thus occur in an ordered manner. We show that in the duplicative transpositions of VSG genes, the ends of the transposed segments were homologous between the basic copy and the expression site. Sequences other than the previously reported 70-base-pair (bp) repeats could be involved. In one variant, 118 clone 1, the homology was between a sequence previously transposed into the expression site and a sequence located 6 kilobases upstream of the VSG 118 gene. In variant 118b the homology was presumably in 70-bp repeat arrays, while in a third 118 variant yet another sequence was involved. The possibility that the 70-bp repeats are important in the initial steps of the recombinational events was illustrated by a rearrangement involving a 70-bp repeat array. The data provide strong evidence for the notion that gene conversion mediates the duplicative transposition of VSG genes. We discuss a model that explains how the process of duplicative transposition can occur at random and still produce an ordered appearance of variants.

Metacyclic variant surface glycoprotein genes of Trypanosoma brucei subsp. rhodesiense are activated in situ, and their expression is transcriptionally regulated

During the metacyclic stage in the life cycle of Trypanosoma brucei subsp. rhodesiense, the expression of variant surface glycoproteins (VSGs) is restricted to a small subset of antigenic types. Previously we identified cDNAs for the VSGs expressed in metacyclic variant antigen types (MVATs) 4 and 7 and found that these VSG genes do not rearrange when expressed at the metacyclic stage (M. J. Lenardo, A. C. Rice-Ficht, G. Kelly, K. Esser, and J. E. Donelson, Proc. Nathl. Acad Sci. USA 81:6642-6646, 1984). We now provide further evidence that these genes do not rearrange and demonstrate that their 5' upstream regions lack the 72 to 76-base-pair repeats which are considered the substrate for duplication and transposition events. Pulsed field gradient electrophoresis showed that the MVAT VSG genes were located on the largest chromosome-sized DNA molecules, and the lack of the MVAT 4 gene in one of two different serodemes suggested that one mechanism for the evolution of MVAT repertoires is gene deletion. When MVATs were inoculated into the bloodstream of a mammalian host by a bite from the insect vector, they rapidly switched into nonmetacyclic VSG types. We found that this switch was accomplished by a loss of MVAT RNA concomitant with the loss of metacyclic VSGs. Transcription studies with isolated metacyclic nuclei showed that the MVAT genes were expressed in situ from a single locus and were regulated at the level of transcription.

Conserved sequences and transcription of the hsp70 gene family in Trypanosoma brucei

Five Trypanosoma brucei 70-kilodalton heat shock protein-encoding genes (hsp70 genes) were found to be arranged in a tandem array. These hsp70 genes are separated by highly conserved intergenic region sequences of 200 base pairs for one gene and 234 base pairs for the other four genes. This intergenic region sequence is also present in front of the first gene of the tandem array, though at a further distance. All five conserved intergenic regions have sequences that are homologous to the eucaryotic control elements, essential for temperature-induced initiation of transcription by polymerase II. In addition, there is a T-rich region at the 3' end of the hsp70 genes which is homologous to the site of transcription termination of mini-exon genes. Immediately 3' of a putative TATA box, a branch point consensus sequence and six sequences homologous to known trypanosome 3' splice sites were found. It is therefore possible that a PolII promoter is present in the intergenic region sequence. Addition of the 35-nucleotide mini-exon to the hsp70 transcript could thus be mediated by bimolecular splicing. The importance of temperature control for development was illustrated by the response of variant surface glycoprotein-encoding genes to heat shock.

Evidence for trans splicing in trypanosomes

The 5' ends of trypanosome mRNAs consist of an identical sequence of 35 nucleotides. This "mini-exon" sequence is derived from the 5' end of a 137 nucleotide RNA (medRNA). The remainder of each mRNA is derived from a protein-coding exon that is not linked to the mini-exon. We propose that medRNA is spliced in trans to de-novo-initiated transcripts of protein-coding genes. This trans splicing model predicts that the downstream portion of medRNA will be part of a branched structure and then be released as a free product (minRNA). We demonstrate that significant levels of minRNA exist in trypanosome RNA. Furthermore, minRNA can be released from high molecular weight RNA by a HeLa cell S100 "debranching" extract. We conclude that trans splicing is the physiological process by which mature mRNA molecules are synthesized in trypanosomes.

Chromosome location of four genes in Leishmania

Chromosome-sized DNA molecules from Leishmania isolates (L. mexicana amazonensis, L. mexicana mexicana, L. chagasi, L. major, L. donovani, and L. braziliensis) were separated by orthogonal field alternation gel electrophoresis. The chromosome locations of four genes were mapped. The alpha-tubulin and rRNA genes each mapped to a single chromosome size class. The beta-tubulin and the 5'-spliced-leader-sequence genes were found on more than one chromosome size class and showed variation of hybridization profiles across species.

Cloning and characterization of a Leishmania gene encoding a RNA spliced leader sequence

Recent studies on leishmania enriettii tubulin mRNAs revealed a 35 nucleotide addition to their 5' end. The gene that codes for this 35 nucleotide leader sequence has now been cloned and sequenced. In the Leishmania genome, the spliced leader gene exists as a tandem repeat of 438 bases. There are approximately 150 copies of this gene comprising 0.1% of the parasite genome. This gene codes for a 85 nucleotide transcript that contains the spliced leader at its 5' end. The 35 nucleotide sequence and the regions immediately 5' and 3' to it are highly conserved across trypanosomatids. We have detected a RNA molecule that is a putative by-product of the processing reaction in which the 35 nucleotide spliced leader has been transferred to mRNA. We suggest that this molecule is the remnant of the spliced leader transcript after removal of the 35 nucleotide spliced leader.

Macronuclear structure of the G surface antigen gene of Paramecium primaurelia and direct expression of its repeated epitopes in Escherichia coli

The gene encoding the G surface antigen of Paramecium primaurelia was cloned from a macronuclear DNA library by a screening procedure involving differential hybridization with cDNA probes synthesized from polyadenylated RNAs of cells expressing one of two alternate antigens. S1 mapping experiments and sequencing of the cloned DNA and the mRNA showed that the cloned gene corresponded to the high-molecular-weight mRNA that had been indirectly identified as that of the G surface antigen. Because the genetic code of Paramecium spp. is different from the "universal" code, this mRNA cannot be correctly translated in vitro; direct proof that it encoded the antigenic determinants of this protein was therefore obtained through expression of fragments of the coding sequence in Escherichia coli by using the expression vector lambda gt11. Studies on the structure of this gene revealed that the central part of the coding sequence contained at least five tandem repeats of 222 base pairs, encoding immunogenic domains of the protein. We also showed that, like other surface antigen genes of trypanosomes and paramecia, this gene lay next to a chromosome end and that no rearrangement of its immediate genomic environment was associated with its expression.

Cloning and characterization of a variant surface glycoprotein expression site from Trypanosoma equiperdum

Variant surface glycoprotein (VSG) genes of African trypanosomes are expressed when they are inserted into one of several telomere-linked expression sites. We cloned and characterized an 11-kilobase (kb) DNA fragment located upstream of an expressed VSG gene. A DNA sequence of 1.8 kb that is located immediately upstream of the inserted VSG gene contains sequences homologous to the 76-base-pair repeats described as being upstream of VSG genes in Trypanosoma brucei (D. A. Campbell, M. P. Van Bree, and J. C. Boothroyd, Nucleic Acids Res. 12:2759-2774). There are no such sequences elsewhere in the 11-kb cloned region. Southern blot analysis using probes from the cloned region revealed multiple unlinked copies of the same or very similar regions. At least three of these are located near telomeres, and two have been shown to be used for the expression of known Trypanosoma equiperdum VSG genes. Like VSG genes, the upstream sequences themselves can be duplicated and deleted. The choice of expression site to be used by a duplicated VSG gene is nonrandom; the site used for expression of the parental VSG gene is strongly favored for use in the daughter variant. Furthermore, even when the parental expression site is not used, the VSG gene occupying it is replaced. Thus, an active expression site is a preferential target for gene conversion in the next variation event.

Metacyclic variant surface glycoprotein genes of Trypanosoma brucei subsp. rhodesiense are activated in situ, and their expression is transcriptionally regulated

During the metacyclic stage in the life cycle of Trypanosoma brucei subsp. rhodesiense, the expression of variant surface glycoproteins (VSGs) is restricted to a small subset of antigenic types. Previously we identified cDNAs for the VSGs expressed in metacyclic variant antigen types (MVATs) 4 and 7 and found that these VSG genes do not rearrange when expressed at the metacyclic stage (M. J. Lenardo, A. C. Rice-Ficht, G. Kelly, K. Esser, and J. E. Donelson, Proc. Nathl. Acad Sci. USA 81:6642-6646, 1984). We now provide further evidence that these genes do not rearrange and demonstrate that their 5' upstream regions lack the 72 to 76-base-pair repeats which are considered the substrate for duplication and transposition events. Pulsed field gradient electrophoresis showed that the MVAT VSG genes were located on the largest chromosome-sized DNA molecules, and the lack of the MVAT 4 gene in one of two different serodemes suggested that one mechanism for the evolution of MVAT repertoires is gene deletion. When MVATs were inoculated into the bloodstream of a mammalian host by a bite from the insect vector, they rapidly switched into nonmetacyclic VSG types. We found that this switch was accomplished by a loss of MVAT RNA concomitant with the loss of metacyclic VSGs. Transcription studies with isolated metacyclic nuclei showed that the MVAT genes were expressed in situ from a single locus and were regulated at the level of transcription.

Karyotype analysis of Leishmania species and its use in classification and clinical diagnosis

Chromosomes of four species of Leishmania represented by ten different geographic isolates were analyzed by pulsed field gradient gel electrophoresis (PFG) to assess chromosome stability in these parasitic protozoans. Among different geographic isolates of the same subspecies, more than two-thirds of chromosomes had similar sizes, ethidium bromide staining intensities, and locations of alpha,beta-tubulin genes. However, among New World Leishmania, members of different species or subspecies have fewer than one-third of their chromosomes in common. Therefore, PFG karyotypes of Leishmania exhibit intraspecific variability similar to that reported for other parasitic protozoans. The greater similarities of the karyotypes of members of the same Leishmania subspecies may indicate that they represent valid taxa. These similarities also allowed the use of PFG in clinical diagnosis for rapid and accurate typing of patient isolates.

Progress in molecular parasitology

Substantial progress has been made in the last ten years in understanding the structural and functional organization of parasitic protozoa and helminths and the complex physiological relationships that exist between these organisms and their hosts. By employing the new powerful techniques of biochemistry, molecular biology and immunology the genomic organization in parasites, the molecular basis of parasite's variation in surface antigens and the biosynthesis, processing, transport and membrane anchoring of these and other surface proteins were extensively investigated. Significant advances have also been made in our knowledge of the specific and often peculiar strategies of intermediary metabolism, cell compartmentation, the role of oxygen for parasites and the mechanisms of antiparasitic drug action. Further major fields of interest are currently the complex processes which enables parasites to evade the host's immune defense system and other mechanisms which have resulted in the specific adaptations which enabled parasites to survive within their host environments. Various approaches in molecular and biochemical parasitology and in immunoparasitology have been proven to be of high potential for serodiagnosis, immunoprophylaxis and drug design.

Size-fractionation of the small chromosomes of Trypanozoon and Nannomonas trypanosomes by pulsed field gradient gel electrophoresis

We have compared the molecular karyotypes of trypanosomes from different subgroups within subgenus Trypanozoon by pulsed field gradient (PFG) gel electrophoresis. Although the overall karyotype was similar, there was much variation in the size of chromosomes between different stocks. Two of three stocks of Trypanosoma (Trypanozoon) brucei gambiense had remarkably small mini-chromosomes: 25-50 kilobase pairs compared to 50-150 kilobase pairs for the mini-chromosomes of other Trypanozoon stocks. The relative amount of DNA in the mini-chromosomal fraction of different stocks correlated well with the amount of 177 base pair satellite DNA monomer per microgram nuclear DNA. Hybridisation of Southern blots of pulsed field gradient gels with a number of gene probes showed that the loci for tubulin and phosphoglycerate kinase in Trypanozoon probably lie on the same chromosome, together with some variant surface glycoprotein genes; the genes for triose phosphate isomerase and glyceraldehyde phosphate dehydrogenase are separately located both with respect to each other and the above housekeeping genes. Therefore, there are at minimum three pairs of chromosomes carrying housekeeping genes in Trypanozoon. In some stocks the chromosomes carrying the tubulin and phosphoglycerate kinase genes are split into two bands, suggesting that homologous chromosomes may differ substantially in size in trypanosomes. One Trypanosoma (Nannomonas) congolense stock examined had a similar pattern of chromosome distribution to that of Trypanozoon, but with very small mini-chromosomes (25-50 kilobase pairs.)