Use of genome-specific repetitive DNA sequences to monitor chromatin introgression from Festuca mairei into Lolium perenne

Repetitive DNA sequences contribute considerably to an understanding of the genomes of higher plants. Repetitive DNA sequences tend to be genome-specific due to the rate of amplification and extent of divergence. Two genome-specific probes from the genomic DNA library of Festuca arundinacea var. genuina Schreb.were selected and characterized. TF521 was found to be P genome-specific since it was able to hybridize with Festuca pratensis Huds. (PP) and Festuca arundinacea var. genuina (PPG₁G₁G₂G₂), but not, or only weakly, with tetraploid Festuca species. TF521 hybridized only with the diploid Festuca and not with the Lolium species (LL). TF436 was specific to tetraploid species of Festuca, such as F. arundinacea var. glauces-cens Boiss. (G₁G₁G₂G₂) and Festuca mairei St. Yves (M₁M₁M₂M₂). By means of Southern hybridization, TF436 was used to detect chromatin introgression of F. mairei in the progenies of the hybrid F. mairei×Lolium perenne L. Potential addition and translocation lines were identified in the BC₁F₁ derivatives of F. mairei×L. perenne. In situ hybridization was used to confirm the genetic identity of these lines. Sequence analyses indicated that TF436 and TF521 were two novel DNA sequences as no homologous sequences were found in Genebank. Received: 22 June 2000 / Accepted: 3 November 2000     

紧穗野生稻的褐飞虱抗性导入栽培稻的研究

栽培品种的远缘野生种O.eichingeri (2n=24,CC染色体组)是褐飞虱的重要抗源。为了将原产乌干达的O.eichingeri两个编号材料的褐飞虱抗性导入栽培稻02428中,利用胚培养技术获得了两个组合的F.杂种,可交配力分别为0.36％和1.62％。所得F.杂种生长旺盛,分蘖力强,但高度不育,其花粉母细胞中期Ⅰ二价体数为0～4个,平均1.33～1.37。F_1植株用02428回交及套袋自交产生的BC_1F_1和F_2植株形态相似,染色体组均为AAC,花粉母细胞中期Ⅰ染色体构型为(12.02～12.18)Ⅰ (11.67～11.89)Ⅱ (0.04～0.19)Ⅲ,均表现完全不育。进一步检查了42个BC_1F_2植株和9个BC_2F_1植株的染色体数目,其变幅为24～38,从中筛选到2n=25及2n=24的植株各21个,其中5个整倍体植株对褐飞虱表现抗,说明两份紧穗野生稻载有抗性基因的染色体片段已成功转入02428中。本研究还发现一些株高及每穗粒数等明显超亲的材料,这可能与染色体组A与C上某些基因的互作有关。     

Characterization and localization of repetitive DNA sequences in the ornamental Alstroemeria aurea Graham

 Three repetitive DNA sequences were isolated from a genomic DNA library of the ornamental Alstroemeria aurea Graham. Two repeats, A001-I and A001-II, were quite homologous and highly A. aurea-specific. A001-I was a 217-bp sequence with several telomeric TTTAGGG repeats at the 5′ end and a unique sequence of 98 bp at the other end. The third repeat, A001-IV, was a 840-bp sequence which contained two sub-sequences of 56 and 74 bp respectively, previously found in chloroplast (cp) DNA of tobacco and spinach and to a lesser extent in the cpDNA of maize and rice. Repeat A001-IV was not species-specific and its hybridization signal was weaker than the other repeats. Fluorescence in situ hybridization (FISH) revealed the A. aurea-specific repeats to be located in the heterochromatic regions of all A. aurea chromosomes. The differences in FISH pattern make them useful tools for karyotype analysis. The non-species-specific sequence A001-IV gave a dispersed signal over all the Alstroemeria chromosomes in an interspecific hybrid. The potential use of these repetitive DNA sequences for the study of phylogenetic relationships within the genus Alstroemeria is discussed. Received: 24 November 1996/Accepted: 20 December 1996     

A comparison of sequence resolution on plant chromosomes: PRINS versus FISH

 The resolution of the chromosomal positions of six high- and one low-copy sequences by oligonucleotide-primed in situ (PRINS) labelling was compared with corresponding data obtained after fluorescent in situ hybridization (FISH) on field-bean and barley chromosomes. While PRINS proved to be suitable for the rapid detection of high-copy tandem repeats at the same loci as those revealed by FISH, no clear PRINS signal was obtained for the low-copy family of vicilin genes at their locus on field-bean chromosome II. This indicates that localization of short target sequences by primer extension via Taq polymerase in situ does not yet provide a resolution equal, or superior, to FISH on plant chromosomes. Therefore, the use of a cocktail of chromosome-specific single-copy sequences as primers for PRINS is no alternative for the not as yet feasible chromosome painting in plants. Received: 21 April 1998 / Accepted: 12 May 1998     

Molecular and chromosomal organization of two repetitive DNA sequences with intercalary locations in sugar beet and other Beta species

 In a search for repetitive DNA sequences in the sugar beet genome, two sequences with repeat unit lengths of 143 and 434 bp were isolated and characterized. The pSV family showed an unusual conservation of restriction sites reflecting homogenization of the analyzed repeats. Members of the family are organized as tandem repeats as revealed by PCR and sequencing of dimeric units. The pSV satellite occurs in large intercalary arrays which are present on all chromosome arms of sugar beet. The pSV sequence family is present in different abundance in the sections Beta, Corollinae and Nanae but is not detectable by Southern hybridization in the section Procumbentes. The pDRV family is characterized by an interspersed genomic organization. The sequence is detectable in all sections of the genus and is amplified in species of the section Beta but was also detected, although at lower abundance, in the remaining three sections. Fluorescent in situ hybridization has shown that the pDRV sequence family is dispersed over all chromosomes of the sugar beet complement with some regions of clustering and centromeric depletion. Received: 18 March 1998 / Accepted: 31 March 1998     

The pachytene chromosomes of maize as revealed by fluorescence in situ hybridization with repetitive DNA sequences

A repetitive DNA sequence, ZmCR2.6c, was isolated from maize based on centromeric sequence CCS1 of the wild grass Brachypodium sylvaticum. ZmCR2.6c is 309 bp in length and shares 65% homology to bases 421–721 of the sorghum centromeric sequence pSau3A9. Fluorescence in situ hybridization (FISH) localized ZmCR2.6c to the primary constrictions of pachytene bivalents and to the stretched regions of MI/AI chromosomes, indicating that ZmCR2.6c is an important part of the centromere. Based on measurements of chromosome lengths and the positions of FISH signals of several cells, a pachytene karyotype was constructed for maize inbred line KYS. The karyotype agrees well with those derived from traditional analyses. Four classes of tandemly repeated sequences were mapped to the karyotype by FISH. Repeats 180 bp long are present in cytologically detectable knobs on 5L, 6S, 6L, 7L, and 9S, as well as at the termini and in the interstitial regions of many chromosomes not reported previously. A most interesting finding is the presence of 180-bp repeats in the NOR-secondary constriction. TR-1 elements co-exist with 180-bp repeats in the knob on 6S and form alone a small cluster in 4L. 26S and 5S rRNA genes are located in the NOR and at 2L.88, respectively. The combination of chromosome length, centromere position, and distribution of the tandem repeats allows all chromosomes to be identified unambiguously. The results presented form an important basis for using FISH for physical mapping and for investigating genome organization in maize. Received: 29 June 1999 / Accepted: 10 November 1999     

Identification of C-genome chromosomes involved in intergenomic translocations in Avena sativa L., using cloned repetitive DNA sequences

Four anonymous non-coding sequences were isolated from an Avena strigosa (A genome) genomic library and subsequently characterized. These sequences, designated As14, As121, As93 and As111, were 639, 730, 668, and 619 bp long respectively, and showed different patterns of distribution in diploid and polyploid Avena species. Southern hybridization showed that sequences with homology to sequences As14 and As121 were dispersed throughout the genome of diploid (A genome), tetraploid (AC genomes) and hexaploid (ACD genomes) Avena species but were absent in the C-genome diploid species. In contrast, sequences homologous to sequences As93 and As111 were found in diploid (A and C genomes), tetraploid (AC genomes) and hexaploid (ACD genomes) species. The chromosomal locations of the 4 sequences in hexaploid oat species were determined by fluorescent in situ hybridization and found to be distributed over the length of the 28 chromosomes (except in the telomeric regions) of the A and D genomes. Furthermore, 2 C-genome chromosome pairs with the As14 sequence, and 4 with As121, were discovered to beinvolved in intergenomic translocations. These chromosomes were identified as 1C, 2C, 4C and 16C by combining the As14 or As121 sequences with two ribosomal sequences and a C-genome-specific sequence as probes in fluorescence in situ hybridization. These sequences offer new tools for analyzing possible intergenomic translocations in other hexaploid oat species. Received: 8 April 1999 / Accepted: 30 July 1999     

Characterization of Aegilops uniaristata chromosomes by comparative DNA marker analysis and repetitive DNA sequence in situ hybridization

RFLP analyses were performed on wheat-Aegilops uniaristata Vis. addition and translocation lines to confirm the identity of added N-genome chromosomes. Complete 1N, 3N, 4N, 5N and 7N chromosome additions were identified, while the complete long arm and only part of the short arm was identified for chromosome 2N. There were no wheat-like 4/5 and 4/7 translocations in the Ae. uniaristata chromosomes. Chromosome 3N carried an asymmetric pericentric inversion, and the translocation line was a product of centric fusion between the long arms of chromosomes 3B and 3N. Chromosome-specific RAPD and microsatellite markers were also identified for all the added Ae. uniaristata chromosomes available in this set of addition lines. A new genomic in situ hybridization protocol combining pre-annealing of probe and blocking DNA and prehybridization with blocking DNA was developed to differentiate the very closely related genomes of Ae. uniaristata and wheat. Hybridization sites for the repetitive DNA sequences pAs1, pSc119.2 and pTa71 were identified on the N-genome chromosomes of Ae. uniaristata using the fluorescent in situ hybridization technique. Results showed deviation from the previously published ideogram of this species. A new ideogram, which shows the hybridization sites for the above sequences, was produced in which the chromosomes are arranged according to their homoeologous group. Received: 23 April 1999 / Accepted: 6 August 1999     

Cloning and characterization of a centromere-specific repetitive DNA element from Sorghum bicolor

 A 823-bp Sau3AI fragment (pSau3A10) was subcloned from a sorghum bacterial artificial chromosome (BAC) clone, 13I16, that contains DNA sequences specific to the centromeres of grass species. Sequence analysis showed that pSau3A10 consists of six copies of an approximately 137-bp monomer. The six monomers were organized into three dimers. The monomers within the dimers shared 62–72% homology and the dimers were 79–82% homologous with each other. Fluorescence in situ hybridization (FISH) analysis indicated that the Sau3A10 family is present only in the centromeres of sorghum chromosomes. Sequencing, Southern hybridization, and Fiber-FISH analyses indicated that the Sau3A10 family is tandemly arranged and is present in uninterrupted stretches of up to at least 81 kb of DNA. Slot-blot analysis estimated that the Sau3A10 family constitutes 1.6–1.9% of the sorghum genome. The long stretches of Sau3A10 sequences were interrupted by other centromeric DNA elements. Southern analysis indicated that the Sau3A10 sequence is one of the most abundant DNA families located in sorghum centromeres and is conserved only in closely related sorghum species. Methylation experiments indicated that the cytosine of the CG sites in sorghum centromeric regions is generally methylated. The structure and organization of the Sau3A10 family shared similarities with centromeric DNA repeats in other eukaryotic species. It is suggested that the Sau3A10 family is probably an important part of sorghum centromeres. Received: 11 November 1997 / Accepted: 17 November 1997     

Molecular and cytological characterization of repetitive DNA sequences in Brassica

Summary We isolated three different repetitive DNA sequences from B. campestris and determined their nucleotide sequences. In order to analyze organization of these repetitive sequences in Brassica, Southern blot hybridization and in situ hybridization with metaphase chromosomes were performed. The sequence cloned in the plasmid pCS1 represented a middle repetitive sequence present only in B. campestris and not detected in closely related B. Oleracea. This sequence was localized at centromeric regions of six specific chromosomes of B. campestris. The second plasmid, pBT4, contained a part of the 25S ribosomal RNA gene, and its copy number was estimated to be 1,590 and 1,300 per haploid genome for B. campestris and B. oleracea, respectively. In situ hybridization with this sequence showed a clear signal at the NOR region found in the second largest chromosome of B. Campestris. The third plasmid, pBT11, contained a 175-bp insert that belongs to a major family of tandem repeats found in all the Brassica species. This sequence was detected at centromeric regions of all the B. campestris chromosomes. Our study indicates that in situ hybridization with various types of repetitive sequences should give important information on the evolution of repetitive DNA in Brassica species.     

The distribution, organization and evolution of two abundant and widespread repetitive DNA sequences in the genus Hordeum

The genomic organization and chromosomal distributions of two abundant tandemly repeated DNA sequences, dpTa1 and pSc119.2, were examined in six wild Hordeum taxa, representing the four basic genomes of the genus, by Southern and fluorescence in situ hybridization. The dpTa1 probe hybridized to between 30 and 60 sites on the chromosomes of all five diploid species studied, but hybridization patterns differed among the species. Hybridization of the pSc119.2 sequence to the chromosomes and Southern blots of digested DNA detected signals in Hordeum bulbosum, Hordeum chilense, Hordeum marinum and Hordeum murinum 4x, but not in Hordeum murinum 2x and Hordeum vulgare ssp. spontaneum. A maximum of one pSc119.2 signal was observed in the terminal or subterminal region of each chromosome arm in the species carrying this sequence. The species carrying the same I-genome differed in the presence (Hordeum bulbosum) or absence (Hordeum spontaneum) of pSc119.2. The presence of pSc119.2 in the tetraploid cytotype of Hordeum murinum, but its absence in the diploid cytotype, suggests that the tetraploid is not likely to be a simple autotetraploid of the diploid. Data about the inter- and intra-specific variation of the two independent repetitive DNA sequences give information about both the interrelationships of the species and the evolution of the repetitive sequences. Received: 17 March 1999 / Accepted: 16 June 1999     

Variation in the distribution of a genome-specific DNA sequence on chromosomes reveals evolutionary relationships in the Triticum and Aegilops complex

 The present study analyzed the distribution pattern of the Ae. speltoides–derived repetitive clone pGc1R-1 in the Triticum/Aegilops complex. Fluorescence in situ hybridization analysis showed that clone pGc1R-1 is a S-genome-specific repetitive sequence that hybridized to the S-genome of three species in the section Sitopsis, Aegilops speltoides (S), Ae. longissima (S^l), and Ae. sharonensis (S^sh), but not to Ae. bicornis (S^b) and Ae. searsii (S^s), nor to any other diploid Aegilops species. This clone also hybridized to the very closely related G-genome of T. timopheevii subsp. armeniacum and T. timopheevii ssp. timopheevii, but not to the B-genome of T. turgidum and T. aestivum. Hybridization also was observed in the polyploid Aegilops species, Ae. kotschyi (U^kS^k), Ae. peregrina (U^pS^p), and Ae. vavilovii (X^vaD^vaS^va). Large inter- and intraspecific variations were observed. Our results confirm that the S genome is related more to the S^l and S^sh genomes than to the S^b and S^s genomes; there is a greater affinity between the G and S genomes than between the B and S genomes. Mechanisms to account for the variation in the FISH pattern with different genomes include sequence amplification and deletion. Variation in the distribution of this genome-specific DNA sequence, pGc1R-1, on chromosomes can be used to reveal evolutionary relationships in the Triticum and Aegilops complex. Received April 10, 2002; accepted July 12, 2002 Published online: November 28, 2002 Address of the authors: Peng Zhang, Bernd Friebe (e-mail: friebe@ksu.edu), Bikram S. Gill, Wheat Genetics Resource Center, Department of Plant Pathology, 4024 Throckmorton, Plant Sciences Center, Kansas State University, Manhattan, KS 66506-5502, USA.     

A novel repetitive sequence associated with the centromeric regions of Arabidopsis thaliana chromosomes

 The middle repetitive fraction of the Arabidopsis genome has been relatively poorly characterized. We describe here a novel repetitive sequence cloned in the plasmid mi167, and present in ∼90 copies in the genome of Arabidopsis thaliana ecotype Columbia. Hybridization analysis to physically mapped YAC clones representing Arabidopsis chromosome 4 revealed four mi167-hybridizing loci, all clustered near the centromere. No other loci were detected on YAC clones covering chromosome 4. In situ hybridisation experiments to Arabidopsis chromosome spreads showed that mi167-hybridizing sequences are clustered at the centromeric heterochromatin of all five chromosomes; on two chromosomes the hybridization appeared to be localised on one arm. Additional mi167-hybridizing loci were detected, one of which was adjacent to a non-centromeric, heterochromatic region. This work supports the idea that the majority of middle repetitive DNA in the Arabidopsis genome is clustered. It also adds to our understanding of the organization of the centromere of Arabidopsis chromosome 4. Received: 19 February 1996 / Accepted: 30 June 1996     

Cloning, quantification and characterization of a minisatellite DNA sequence from common bean Phaseolus vulgaris L.

 We describe the cloning and the characterization of a 130-bp DNA fragment, called OPG9-130, amplified from bean (Phaseolus vulgaris L.) genomic DNA. This fragment corresponds to a minisatellite DNA sequence containing seven repeats of 15 bp which differ slightly from each other in their sequence. Southern analysis showed that the core sequence of 15 bp is repeated in clusters dispersed throughout the genome. The use of this fragment as a probe allowed us to identify common bean lines by their DNA fingerprints. We suggest that OPG9-130 will be useful for line identification as well as for the analysis of genetic relatedness between bean species and lines. Received: 14 February 1998 / Accepted: 10 February 1998     

Cloning, expression and function of phosphate transporter encoded gene in Oryza sativa L.

OsPT6:1, a phosphate transporter encoding gene from the leaf samples of Oryza sativa, was identified through PCR with specifically designed primers. The phylogenetic analysis and the conserved amino acid residue site detection suggested OsPT6:1 a possible high-affinity phosphate transporter encoding gene. In situ hybridization and RT-PCR demonstrated the expression of OsPT6:1 in both roots and leaves. The peak expression signal was observed in mesophyll cells under low phosphorus (P) induction. A homologous recombination study indicated that OsPT6:1 can enhance the Pi uptake efficiency of Pichia pastoris. At the meantime, the introduction of OsPT6:1 was able to complement the Pi uptake function of yeast cells with high-affinity phosphate transporters deficient. Those results substantiated our contention that OsPT6:1 encoded a high-affinity phosphate transporter of Oryza sativa. These authors contributed equally to this work.     

Development of monosomic alien addition lines and introgression of genes from Oryza australiensis Domin. to cultivated rice O. sativa L.

Oryza australiensis, a diploid wild relative of cultivated rice, is an important source of resistance to brown planthopper (BPH) and bacterial blight (BB). Interspecific hybrids between three breeding lines of O. sativa (2n=24, AA) and four accessions of O. australiensis (2n=24, EE) were obtained through embryo rescue. The crossability ranged from 0.25% to 0.90%. The mean frequency of bivalents at diakinesis/metaphase I in F₁ hybrids (AE) was 2.29 to 4.85 with a range of 0–8 bivalents. F₁ hybrids were completely male sterile. We did not obtain any BC₁ progenies even after pollinating 20,234 spikelets of AE hybrids with O. sativa pollen. We crossed the artificially induced autotetraploid of an elite breeding line (IR31917-45-3-2) with O. australiensis (Acc. 100882) and, following embryo rescue, produced six F₁ hybrid plants (AAE). These triploid hybrids were backcrossed to O. sativa. The chromosome number of 16 BC₁ plants varied from 28 to 31, and all were male sterile. BC₂ plants had 24–28 chromosomes. Eight monosomic alien addition lines (MAALs) having a 2n chromosome complement of O. sativa and one chromosome of O. australiensis were selected from the BC₂ F₂ progenies. The MAALs resembled the primary trisomies of O. sativa in morphology, and on the basis of this morphological similarity the MAALs were designated as MAAL-1, -4, -5, -7, -9, -10, -11, and -12. The identity of the alien chromosome was verified at the pachytene stage of meiosis. The alien chromosomes paired with the homoeologous pairs to form trivalents at a frequency of 13.2% to 24.0% at diakinesis and 7.5% to 18.5% at metaphase I. The female transmission rates of alien chromosomes varied from 4.2% to 37.2%, whereas three of the eight MAALs transmitted the alien chromosome through the male gametes. BC₂ progenies consisting of disomic and aneuploid plants were examined for the presence of O. australiensis traits. Alien introgression was detected for morphological traits, such as long awns, earliness, and Amp-3 and Est-2 allozymes. Of the 600 BC₂ F₄ progenies 4 were resistant to BPH and 1 to race 6 of BB. F₃ segregation data suggest that earliness is a recessive trait and that BPH resistance is monogenic recessive in two of the four lines but controlled by a dominant gene in the other two lines.     

A repetitive and species-specific sequence as a tool for detecting the genome contribution in somatic hybrids of the genus Medicago

 A highly repeated sequence (C300) was cloned from Medicago coerulea and its organization in the M. sativa-coerulea-falcata complex, M. arborea, and three somatic hybrids involving M. sativa, was investigated. Southern-blot analysis revealed a tandemly repeated array and a species-specificity of the sequence to those species belonging to the complex. Various degrees of amplification of C300 were detected among the species of the complex and the outcome in the somatic hybrids was dependent on parental composition. Sequence analysis revealed strong homology (96%) of C300 with a clone (E180) previously isolated from M. sativa. As FISH analysis showed that C300 was dispersed along the chromosomes of Medicago spp., it should prove a valid tool for establishing the chromosome origin of somatic hybrids. Received: 14 April 1997 / Accepted: 18 April 1997     

Cloning,expression and function of phosphate transporter encoded gene in Oryza sativa L.

OsPT6:1,a phosphate transporter encoding gene from the leaf samples of Oryza sativa, was identified through PCR with specifically designed primers.The phylogenetic analysis and the conserved amino acid residue site detection suggested OsPT6:1 a possible high-affinity phosphate transporter encoding gene.In situ hybridization and RT-PCR demonstrated the expression of OsPT6:1 in both roots and leaves.The peak expression signal was observed in mesophyll cells under low phosphorus(P)induction.A homologous recombination study indicated that OsPT6:1 can enhance the Pi uptake efficiency of Pichia pastoris.At the meantime,the introduction of OsPT6:1 was able to complement the Pi uptake function of yeast cells with high-affinity phosphate transporters de- ficient.Those results substantiated our contention that OsPT6:1 encoded a high-affinity phosphate transporter of Oryza sativa.     

Inter-simple sequence repeat (ISSR) amplification for analysis of microsatellite motif frequency and fingerprinting in rice (Oryza sativa L.)

 Inter-simple sequence repeat (ISSR) amplification was used to analyze microsatellite motif frequency in the rice genome and to evaluate genetic diversity among rice cultivars. A total of 32 primers, containing different simple sequence repeat (SSR) motifs, were tested for amplification on a panel of 59 varieties, representative of the diversity of cultivated rice (Oryza sativa L.). The ISSR analysis provided insights into the organization, frequency and levels of polymorphism of different simple sequence repeats in rice. The more common dinucleotide motifs were more amenable to ISSR analysis than the more infrequent tri-, tetra- and penta-nucleotide motifs. The ISSR results suggested that within the dinucleotide class, the poly(GA) motif was more common than the poly(GT) motif and that the frequency and clustering of specific tri- and tetra-nucleotide simple sequence repeats was variable and motif-specific. Furthermore, trinucleotide ISSR markers were found to be less polymorphic than either dinucleotide or certain tetranucleotide ISSR markers, suggesting which motifs would be better targets for microsatellite marker development. The ISSR amplification pattern was used to group the rice genotypes by cluster analysis. These results were compared to surveys of the same varieties for amplified fragment length polymorphism (AFLP), restriction fragment length polymorphism (RFLP) and isozyme markers. The ISSR fingerprint could be used to differentiate the genotypes belonging to either Japonica or Indica sub species of cultivated rice and to dissect finer levels of diversity within each subspecies. A higher percentage of polymorphic bands was produced with the ISSR technique than the AFLP method, based on a similar PCR reaction. Therefore, ISSR amplification proved to be a valuable method for determining genetic variability among rice varieties and for rapidly identifying cultivars. This efficient genetic fingerprinting technique would be useful for characterizing the large numbers of rice accessions held in national and international germplasm centers. Received: 25 May 1998 / Accepted: 17 September 1998     

Identification of genome constitution of Oryza malampuzhaensis, O. minuta,and O. punctata by multicolor genomic in situ hybridization

Multicolor genomic in situ hybridization (McGISH) was applied to identify the genomic constitution of three tetraploid species (2n = 4x = 48) in the Oryza officinalis complex of the genus Oryza, i.e. Oryza malam-puzhaensis, Oryza minuta, and Oryza punctata. The genomic probes used were from three diploids, i.e. Oryza officinalis (CC), Oryza eichingeri (CC) and Oryza punctata (BB), respectively. The results indicated that all three tetraploids are allotetraploid with the genomic constitution of BBCC, and among them the genome constitution of O. malampuzhaensis was verified for the first time. Restoration of the independent taxonomic status of O. malampuzhaensis is suggested. One pair of satellite chromosomes belonging to the B genome was identified in O. malampuzhaensis, but no such satellite chromosomes were found in either O. minuta or the tetraploid O. punctata. The average chromosome length of the C genome was found to be slightly larger than that of the B-genome chromosomes of O. minuta, but not in the tetraploids O. punctata and O. malampuzhaensis. McGISH also revealed that the B genome of O. minuta and the B genome of diploid O. punctata showed clear differentiation from each other. Therefore, the suggestion was proposed that the B genome in diploid O. punctata was not the source of the B genome of O. minuta. The present results proved that multicolor GISH had high resolution in identifying the genomic constitution of polyploid Oryza species. Received: 14 February 2000 / Accepted: 13 November 2000