Nucleotide sequence and chromosomal mapping of the 5S rDNA repeat of the crustacean Proasellus coxalis

In this investigation we analysed the 5S rRNA genes of the isopod crustacean Proasellus coxalis. 5S rDNA hybridization of digested genomic DNA and amplification by PCR demonstrate that these genes are organized in tandem repeats of 589 bp, 120 of which represent the coding sequence and 469 the spacer sequence. Proasellus coxalis is the first crustacean species in which 5S rRNA genes have been found tandemly arranged without being linked to other repeated genes. The PCR product has been used as a probe in FISH to locate the 5S rRNA genes on two chromosome pairs of the P. coxalis karyotype. Comparison of the 5S rDNA sequence of this species with previously published sequences of six other crustacean species shows the existence of a good correlation between phylogenetic relationships and sequence identity.

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Organization of the 5S rRNA genes in the soybean Glycine max (L.) Merrill and conservation of the 5S rDNA repeat structure in higher plants

Genome ◽

10.1139/g90-072 ◽

1990 ◽

Vol 33 (4) ◽

pp. 486-494 ◽

Cited By ~ 72

Author(s):

S. G. Gottlob-McHugh ◽

M. Lévesque ◽

K. MacKenzie ◽

M. Olson ◽

O. Yarosh ◽

...

Keyword(s):

Glycine Max ◽

Tandem Repeats ◽

Higher Plants ◽

5S Rdna ◽

Rdna Sequence ◽

5S Rrna ◽

Rrna Genes ◽

Rrna Gene ◽

Glycine Max L ◽

5S Rdna Sequence

The 5S rRNA gene of the soybean Glycine max (L.) Merr. has been cloned on a 556-bp fragment of DNA and sequenced. This fragment contains two copies of the soybean 5S rDNA sequence, one intact and one truncated, separated by noncoding DNA. We have used this clone to investigate the organization of the 5S genes within the soybean genome and the extent of their methylation. Our results demonstrate that soybean 5S genes are clustered, organized into tandem repeats of 330 bp, and extensively methylated. Hybridization of the 5S sequence to Southern transfers of soybean DNA digested with BamHI reveals a striking ladderlike pattern. Hybridization of the soybean 5S sequence to a wide variety of plant DNAs results in similar patterns, suggesting that the 5S rDNA sequence, gene organization, and methylation pattern are conserved in many higher plants.Key words: 5S rDNA, sequence, methylation, soybean, repeat conservation.

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Organization of 5S ribosomal RNA genes in tea (Camellia sinensis)

Genome ◽

10.1139/g00-095 ◽

2001 ◽

Vol 44 (1) ◽

pp. 143-146 ◽

Cited By ~ 2

Author(s):

Dharam Singh ◽

Mahipal Singh

Keyword(s):

Camellia Sinensis ◽

Tandem Repeats ◽

5S Rdna ◽

5S Rrna ◽

Rrna Genes ◽

Rrna Gene ◽

Repeat Units ◽

Camellia Species ◽

5S Rrna Genes ◽

Rna Genes

The 5S rRNA genes in the Camellia sinensis (L.) O. Kuntze (tea) genome are arranged as tandem repeat units of 300 and 325 bps. The 2 classes of tandem repeats were discovered by Southern hybridisation of tea genomic DNA with a 5S rRNA gene PCR product.Key words: Camellia species, 5S rDNA, multigene family, tandem repeats, spacers.

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Chromosomal mapping of H3 histone and 5S rRNA genes in eight species of Astyanax (Pisces, Characiformes) with different diploid numbers: syntenic conservation of repetitive genes

Genome ◽

10.1139/gen-2015-0112 ◽

2016 ◽

Vol 59 (3) ◽

pp. 167-172 ◽

Cited By ~ 9

Author(s):

Diovani Piscor ◽

Patricia Pasquali Parise-Maltempi

Keyword(s):

Genomic Organization ◽

5S Rdna ◽

Gene Families ◽

5S Rrna ◽

Chromosomal Mapping ◽

Rrna Genes ◽

Rdna Sequences ◽

Cytogenetic Studies ◽

5S Rrna Genes ◽

Syntenic Conservation

The genus Astyanax is widely distributed from the southern United States to northern Patagonia, Argentina. While cytogenetic studies have been performed for this genus, little is known about the histone gene families. The aim of this study was to examine the chromosomal relationships among the different species of Astyanax. The chromosomal locations of the 5S rRNA and H3 histone genes were determined in A. abramis, A. asuncionensis, A. altiparanae, A. bockmanni, A. eigenmanniorum, A. mexicanus (all 2n = 50), A. fasciatus (2n = 46), and A. schubarti (2n = 36). All eight species exhibited H3 histone clusters on two chromosome pairs. In six species (A. abramis, A. asuncionensis, A. altiparanae, A. bockmanni, A. eigenmanniorum, and A. fasciatus), syntenic clusters of H3 histone and 5S rDNA were observed on metacentric (m) or submetacentric (sm) chromosomes. In seven species, clusters of 5S rDNA sequences were located on one or two chromosome pairs. In A. mexicanus, 5S rDNA clusters were located on four chromosome pairs. This study demonstrates that H3 histone clusters are conserved on two chromosome pairs in the genus Astyanax, and specific chromosomal features may contribute to the genomic organization of the H3 histone and 5S rRNA genes.

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Ribosomal DNA localization on Lathyrus species chromosomes by FISH

Journal of Genetic Engineering and Biotechnology ◽

10.1186/s43141-020-00075-1 ◽

2020 ◽

Vol 18 (1) ◽

Author(s):

Hoda B. M. Ali ◽

Samira A. Osman

Keyword(s):

Genome Mapping ◽

Chromosome Complement ◽

5S Rdna ◽

Rdna Locus ◽

5S Rrna ◽

Rrna Genes ◽

45S Rdna ◽

Metaphase Chromosomes ◽

Lathyrus Odoratus ◽

5S Rrna Genes

Abstract Background Fluorescence In Situ Hybridization (FISH) played an essential role to locate the ribosomal RNA genes on the chromosomes that offered a new tool to study the chromosome structure and evolution in plant. The 45S and 5S rRNA genes are independent and localized at one or more loci per the chromosome complement, their positions along chromosomes offer useful markers for chromosome discriminations. In the current study FISH has been performed to locate 45S and 5S rRNA genes on the chromosomes of nine Lathyrus species belong to five different sections, all have chromosome number 2n=14, Lathyrus gorgoni Parl, Lathyrus hirsutus L., Lathyrus amphicarpos L., Lathyrus odoratus L., Lathyrus sphaericus Retz, Lathyrus incospicuus L, Lathyrus paranensis Burkart, Lathyrus nissolia L., and Lathyrus articulates L. Results The revealed loci of 45S and 5S rDNA by FISH on metaphase chromosomes of the examined species were as follow: all of the studied species have one 45S rDNA locus and one 5S rDNA locus except L. odoratus L., L. amphicarpos L. and L. sphaericus Retz L. have two loci of 5S rDNA. Three out of the nine examined species have the loci of 45S and 5S rRNA genes on the opposite arms of the same chromosome (L. nissolia L., L. amphicarpos L., and L. incospicuus L.), while L. hirsutus L. has both loci on the same chromosome arm. The other five species showed the loci of the two types of rDNA on different chromosomes. Conclusion The detected 5S and 45S rDNA loci in Lathyrus could be used as chromosomal markers to discriminate the chromosome pairs of the examined species. FISH could discriminate only one chromosome pair out of the seven pairs in three species, in L. hirsutus L., L. nissolia L. and L. incospicuus L., and two chromosome pairs in five species, in L. paranensis Burkart, L. odoratus L., L. amphicarpos L., L. gorgoni Parl. and L. articulatus L., while it could discriminate three chromosome pairs in L. sphaericus Retz. these results could contribute into the physical genome mapping of Lathyrus species and the evolution of rDNA patterns by FISH in the coming studies in future.

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Localization of the 5S rRNA genes and evidence for diversity in the 5S rDNA region of maize

Gene ◽

10.1016/0378-1119(81)90099-8 ◽

1981 ◽

Vol 15 (1) ◽

pp. 7-20 ◽

Cited By ~ 40

Author(s):

P.N. Mascia ◽

I. Rubenstein ◽

R.L. Phillips ◽

A.S. Wang ◽

Lu Zhen Xiang

Keyword(s):

5S Rdna ◽

5S Rrna ◽

Rrna Genes ◽

5S Rrna Genes

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The genetics of 5S rRNA encoding multigene families in barley

Genome ◽

10.1139/g93-136 ◽

1993 ◽

Vol 36 (6) ◽

pp. 1023-1028 ◽

Cited By ~ 22

Author(s):

Vladimir Kanazin ◽

Evgeny Ananiev ◽

Tom Blake

Keyword(s):

Tandem Repeats ◽

Doubled Haploids ◽

Gene Clusters ◽

Variable Number ◽

5S Rrna ◽

Rrna Genes ◽

Multigene Families ◽

Obvious Effect ◽

Barley Cultivars ◽

5S Rrna Genes

Two loci containing genes encoding 5S rRNA were mapped on the second and third chromosomes of barley. The two gene clusters located on different chromosomes differed in the length of the nontranscribed spacer separating the 5S rRNA genes. All nontranscribed spacers contained a variable number of trinucleotide tandem repeats. The distribution of 5S genes between these two clusters and their copy number varied widely between cultivars and doubled haploids derived from a cross between two barley cultivars. However, this variation had no obvious effect on plant phenotype.Key words: 5S rRNA genes, multigene families, nontranscribed spacers, trinucleotide tandem repeats, barley, phenotype.

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Long Tandem Arrays of Cassandra Retroelements and Their Role in Genome Dynamics in Plants

International Journal of Molecular Sciences ◽

10.3390/ijms21082931 ◽

2020 ◽

Vol 21 (8) ◽

pp. 2931 ◽

Cited By ~ 5

Author(s):

Ruslan Kalendar ◽

Olga Raskina ◽

Alexander Belyayev ◽

Alan H. Schulman

Keyword(s):

Copy Number ◽

5S Rdna ◽

5S Rrna ◽

Rrna Genes ◽

Gene Copy ◽

Rrna Gene ◽

Long Terminal Repeats ◽

5S Rrna Genes ◽

Pol Iii ◽

Tandem Arrays

Retrotransposable elements are widely distributed and diverse in eukaryotes. Their copy number increases through reverse-transcription-mediated propagation, while they can be lost through recombinational processes, generating genomic rearrangements. We previously identified extensive structurally uniform retrotransposon groups in which no member contains the gag, pol, or env internal domains. Because of the lack of protein-coding capacity, these groups are non-autonomous in replication, even if transcriptionally active. The Cassandra element belongs to the non-autonomous group called terminal-repeat retrotransposons in miniature (TRIM). It carries 5S RNA sequences with conserved RNA polymerase (pol) III promoters and terminators in its long terminal repeats (LTRs). Here, we identified multiple extended tandem arrays of Cassandra retrotransposons within different plant species, including ferns. At least 12 copies of repeated LTRs (as the tandem unit) and internal domain (as a spacer), giving a pattern that resembles the cellular 5S rRNA genes, were identified. A cytogenetic analysis revealed the specific chromosomal pattern of the Cassandra retrotransposon with prominent clustering at and around 5S rDNA loci. The secondary structure of the Cassandra retroelement RNA is predicted to form super-loops, in which the two LTRs are complementary to each other and can initiate local recombination, leading to the tandem arrays of Cassandra elements. The array structures are conserved for Cassandra retroelements of different species. We speculate that recombination events similar to those of 5S rRNA genes may explain the wide variation in Cassandra copy number. Likewise, the organization of 5S rRNA gene sequences is very variable in flowering plants; part of what is taken for 5S gene copy variation may be variation in Cassandra number. The role of the Cassandra 5S sequences remains to be established.

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Novel variants of the 5S rRNA genes in Eruca sativa

Genome ◽

10.1139/g94-015 ◽

1994 ◽

Vol 37 (1) ◽

pp. 121-128 ◽

Cited By ~ 10

Author(s):

Kapil Singh ◽

Sabhyata Bhatia ◽

Malathi Lakshmikumaran

Keyword(s):

Repeat Unit ◽

5S Rdna ◽

5S Rrna ◽

Rrna Genes ◽

Gene Variants ◽

Eruca Sativa ◽

Coding Region ◽

Coding Regions ◽

Rdna Sequences ◽

5S Rrna Genes

The 5S ribosomal RNA (rRNA) genes of Eruca sativa were cloned and characterized. They are organized into clusters of tandemly repeated units. Each repeat unit consists of a 119-bp coding region followed by a noncoding spacer region that separates it from the coding region of the next repeat unit. Our study reports novel gene variants of the 5S rRNA genes in plants. Two families of the 5S rDNA, the 0.5-kb size family and the l-kb size family, coexist in the E. sativa genome. The 0.5-kb size family consists of the 5S rRNA genes (S4) that have coding regions similar to those of other reported plant 5S rDNA sequences, whereas the 1-kb size family consists of the 5S rRNA gene variants (S1) that exist as 1-kb BamHI tandem repeats. S1 is made up of two variant units (V1 and V2) of 5S rDNA where the BamHI site between the two units is mutated. Sequence heterogeneity among S4, V1, and V2 units exists throughout the sequence and is not limited to the noncoding spacer region only. The coding regions of V1 and V2 show approximately 20% dissimilarity to the coding regions of S4 and other reported plant 5S rDNA sequences. Such a large variation in the coding regions of the 5S rDNA units within the same plant species has been observed for the first time. Restriction site variation is observed between the two size classes of 5S rDNA in E. sativa. The noncoding spacers of the variants V1 and V2 that make up the 1-kb family lack the EcoRI site that is present in the 0.5-kb family. The sequence analysis indicates that V1 and V2 sequences are probably pseudogenes derived from functional 5S rRNA genes. The results also suggest that the two families exist as independent clusters at different locations in the E. sativa genome.Key words: 5S rRNA genes, crucifers, Eruca sativa, organization, sequence analysis.

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Chromosomal mapping of mouse 5S rRNA genes by direct R-banding fluorescence in situ hybridization

Cytogenetic and Genome Research ◽

10.1159/000133704 ◽

1994 ◽

Vol 66 (4) ◽

pp. 246-249 ◽

Cited By ~ 16

Author(s):

Y. Matsuda ◽

K. Moriwaki ◽

V.M. Chapman ◽

Y. Hoi-Sen ◽

J. Akbarzadeh ◽

...

Keyword(s):

In Situ Hybridization ◽

Fluorescence In Situ Hybridization ◽

5S Rrna ◽

Chromosomal Mapping ◽

Rrna Genes ◽

5S Rrna Genes

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Molecular organization of 5S rDNA intergenic spacer in Gentiana pneumonanthe L. and G. punctata L.

Visnik ukrains'kogo tovaristva genetikiv i selekcioneriv ◽

10.7124/visnyk.utgis.18.1-2.1349 ◽

2021 ◽

Vol 18 (1-2) ◽

pp. 9-15

Author(s):

V. M. Mel’nyk ◽

I. O. Andreev ◽

G. Yu. Myryuta ◽

A. Y. Shelyfist ◽

R. A. Volkov ◽

...

Keyword(s):

Intergenic Spacer ◽

5S Rdna ◽

5S Rrna ◽

Molecular Organization ◽

Rrna Genes ◽

Rrna Gene ◽

Coding Region ◽

5S Rrna Genes ◽

Rdna Igs ◽

Rdna Intergenic Spacer

Aim. The study was aimed at cloning and analysis of molecular organization of 5S rDNA intergenic spacer (IGS) in two Gentiana species of Ukrainian flora, G. pneumonanthe L. and G. punctata L. Methods. 5S rDNA IGS sequence was amplified using polymerase chain reaction (PCR) with a pair of primers specific for the gene coding region. The produced PCR products were fractionated by gel-electrophoresis, isolated, ligated into plasmid pUC18, cloned into E. coli, and then sequenced. Nucleotide sequences were aligned using the Muscle algorithm and analyzed in the Unipro UGENE software. Results. The intergenic spacer region of the 5S rRNA genes was cloned and sequenced for two Gentiana species of Ukrainian flora, G. pneumonanthe and G. punctata. Based on the analysis of the alignment of the IGS sequences of five Gentiana species from three sections, some features of molecular organization of IGS of 5S rRNA genes in the studied species were established. In particular, motifs typical for other angiosperm families were identified, such as conservative oligo-dT motif at the IGS 3'-end that served as a transcription termination site and AT-rich region preceding the coding region of 5S rRNA gene. However, in the region of transcription initiation, conservative GC-element in position -13 is changed to AC. Conclusions. The interspecific variation of molecular organization of 5S rDNA IGS was identified among Gentiana species that can be used to clarify the phylogenetic relationships between members of this genus.Keywords: Gentiana species, 5S rDNA intergenic spacer, molecular organization, phylogeny.

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