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1.
The intriguing diversity of highly abundant satellite repeats found even among closely related species can result from processes
leading to dramatic changes in copy number of a particular sequence in the genome and not from rapid accumulation of mutations.
To test this hypothesis, we investigated the distribution of the PRAT satellite DNA family, a highly abundant major satellite
in the coleopteran species Palorus ratzeburgii, in eight species belonging to the related genera (Tribolium, Tenebrio, Latheticus), the subfamily (Pimeliinae), and the family (Chrysomelidae). Dot blot analysis and PCR assay followed by Southern hybridization
revealed that the PRAT satellite, in the form of low-copy number repeats, was present in all tested species. The PRAT satellite
detected in the species Pimelia elevata has been sequenced, and compared with previously cloned PRAT monomers from Palorus ratzeburgii and Palorus subdepressus. Although the two Palorus species diverged at least 7 Myr ago, and the subfamily Pimeliinae separated from the genus Palorus 50–60 Myr ago, all PRAT clones exhibit high mutual homology, with average variability relative to the common consensus sequence
of 1.3%. The presence of ancestral mutations found in PRAT clones from all three species as well as the absence of species
diagnostic mutations illustrate extremely slow sequence evolution. This unexpectedly high conservation of PRAT satellite DNA
sequence might be induced by a small bias of turnover mechanisms favoring the ancestral sequence in the process of molecular
drive. 相似文献
2.
A family of four satellite DNAs has been characterized in the genome of the bivalve mollusc, Donax trunculus. All share HindIII sites, a similar monomer length of about 160 base pairs (bp), and the related oligonucleotide motifs GGTCA and GGGTTA,
repeated six to 15 times within the repetitive units. The motif GGTCA is common to all members of the satellite family. It
is present in three of them in both orientations, interspersed within nonrepetitive DNA sequences. The hexanucleotide GGGTTA
appears to be the main building element of one of the satellites forming a prominent subrepeat structure in conjunction with
the 5-bp motif. The former has been also found in perfect tandem repeats in a junction region adjacent to the proper satellite
sequence. Southern analysis has revealed that (GGGTTA)n and/or related sequences are abundant and widely distributed in the D. trunculus genome. The distribution observed is consistent with the concurrence of the scattering of short sequence motifs throughout
the genome and the spread of longer DNA segments, with concomitant formation of satellite monomer repeats. Both kinds of dispersion
may have contributed to the observed complex arrangement of the HindIII satellite DNA family in Donax.
Received: 28 May 1996 / Accepted: 30 July 1996 相似文献
3.
Charles Lee Dean R. Court Charles Cho Jennifer L. Haslett Chyi-Chyang Lin 《Journal of molecular evolution》1997,44(3):327-335
Based on sequence analyses of 17 complete centromeric DNA monomers from ten different deer species, a model is proposed for
the genesis, evolution, and genomic organization of cervid satellite I DNA. All cervid satellite I DNA arose from the initial
amplification of a 31-bp DNA sequence. These 31-bp subrepeats were organized in a hierarchical fashion as 0.8-kb monomers
in plesiometacarpalia deer and 1-kb monomers in telemetacarpalia deer. The higher-order repeat nature of cervid centromeric
satellite DNA monomers accounts for their high intragenomic and intraspecific sequence conservation. Such high intraspecific
sequence conservation validates the use of a single cervid satellite I DNA monomer from each deer species for interspecific
sequence comparisons to elucidate phylogenetic relationships. Also, a specific 0.18-kb tandem duplication was observed in
all 1-kb monomers, implying that 1-kb cervid satellite I DNA monomers arose from an unequal crossover event between two similar
0.8-kb ancestral DNA sequences.
Received: 28 May 1996 / Accepted: 24 October 1996 相似文献
4.
A PstI DNA family was isolated from the genome of a lacertid, Lacerta graeca. The 185-bp monomeric unit (pGPS) was cloned and hybridized to DNAs and chromosomes of several lacertid species. The data
showed that pGPS hybridizes to the (1) centromeric or pericentromeric heterochromatin of almost all the chromosomes of L. graeca and (2) genomic DNA of species phylogenetically related and unrelated to L. graeca. The presence of pGPS even in species immunologically apart more than 30 million years suggests that this repeated family
might be either very ancient or have been conserved during evolution due to its functional role. The latter hypothesis might
be supported by the results of sequence analysis which showed some homology with both several alphoid sequences of primates
and the CDEIII centromeric sequence of yeast. Segments of the satellite sequence are similar to the mammalian CENP-B box.
These observations suggest that pGPS might have a role in determining the centromeric function in lacertid lizards.
Received: 6 February 1997 / Accepted: 14 May 1997 相似文献
5.
Heat Shock Protein 70 Family: Multiple Sequence Comparisons, Function, and Evolution 总被引:14,自引:0,他引:14
The heat shock protein 70 kDa sequences (HSP70) are of great importance as molecular chaperones in protein folding and transport.
They are abundant under conditions of cellular stress. They are highly conserved in all domains of life: Archaea, eubacteria,
eukaryotes, and organelles (mitochondria, chloroplasts). A multiple alignment of a large collection of these sequences was
obtained employing our symmetric-iterative ITERALIGN program (Brocchieri and Karlin 1998). Assessments of conservation are
interpreted in evolutionary terms and with respect to functional implications. Many archaeal sequences (methanogens and halophiles)
tend to align best with the Gram-positive sequences. These two groups also miss a signature segment [about 25 amino acids
(aa) long] present in all other HSP70 species (Gupta and Golding 1993). We observed a second signature sequence of about 4
aa absent from all eukaryotic homologues, significantly aligned in all prokaryotic sequences. Consensus sequences were developed
for eight groups [Archaea, Gram-positive, proteobacterial Gram-negative, singular bacteria, mitochondria, plastids, eukaryotic
endoplasmic reticulum (ER) isoforms, eukaryotic cytoplasmic isoforms]. All group consensus comparisons tend to summarize better
the alignments than do the individual sequence comparisons. The global individual consensus ``matches' 87% with the consensus
of consensuses sequence. A functional analysis of the global consensus identifies a (new) highly significant mixed charge
cluster proximal to the carboxyl terminus of the sequence highlighting the hypercharge run EEDKKRRER (one-letter aa code used).
The individual Archaea and Gram-positive sequences contain a corresponding significant mixed charge cluster in the location
of the charge cluster of the consensus sequence. In contrast, the four Gram-negative proteobacterial sequences of the alignment
do not have a charge cluster (even at the 5% significance level). All eukaryotic HSP70 sequences have the analogous charge
cluster. Strikingly, several of the eukaryotic isoforms show multiple mixed charged clusters. These clusters were interpreted
with supporting data related to HSP70 activity in facilitating chaperone, transport, and secretion function. We observed that
the consensus contains only a single tryptophan residue and a single conserved cysteine. This is interpreted with respect
to the target rule for disaggregating misfolded proteins. The mitochondrial HSP70 connections to bacterial HSP70 are analyzed,
suggesting a polyphyletic split of Trypanosoma and Leishmania protist mitochondrial (Mt) homologues separated from Mt-animal/fungal/plant homologues. Moreover, the HSP70 sequences from
the amitochondrial Entamoeba histolytica and Trichomonas vaginalis species were analyzed. The E. histolytica HSP70 is most similar to the higher eukaryotic cytoplasmic sequences, with significantly weaker alignments to ER sequences
and much diminished matching to all eubacterial, mitochondrial, and chloroplast sequences. This appears to be at variance
with the hypothesis that E. histolytica rather recently lost its mitochondrial organelle. T. vaginalis contains two HSP70 sequences, one Mt-like and the second similar to eukaryotic cytoplasmic sequences suggesting two diverse
origins.
Received: 29 January 1998 / Accepted: 14 May 1998 相似文献
6.
Sybille Kubis John Seymour Heslop-Harrison Thomas Schmidt 《Journal of molecular evolution》1997,44(3):310-320
Members of a highly abundant restriction satellite family have been isolated from the wild beet species Beta nana. The satellite DNA sequence is characterized by a conserved RsaI restriction site and is present in three of four sections of the genus Beta, namely Nanae, Corollinae, and Beta. It was not detected in species of the evolutionary old section Procumbentes, suggesting its amplification after separation of this section. Sequences of eight monomers were aligned revealing a size
variation from 209 to 233 bp and an AT content ranging from 56.5% to 60.5%. The similarity between monomers in B. nana varied from 77.7% to 92.2%. Diverged subfamilies were identified by sequence analysis and Southern hybridization. A comparative
study of this repetitive DNA element by fluorescent in situ hybridization and Southern analyses in three representative species
was performed showing a variable genomic organization and heterogeneous localizations along metaphase chromosomes both within
and between species. In B. nana the copy number of this satellite, with some 30,000 per haploid genome, is more than tenfold higher than in Beta lomatogona and up to 200 times higher than in Beta vulgaris, indicating different levels of sequence amplification during evolution in the genus Beta. In sugar beet (B. vulgaris), the large-scale organization of this tandem repeat was examined by pulsed-field gel electrophoresis. Southern hybridization
to genomic DNA digested with DraI demonstrated that satellite arrays are located in AT-rich regions and the tandem repeat is a useful probe for the detection
of genetic variation in closely related B. vulgaris cultivars, accessions, and subspecies.
Received: 24 May 1996 / Accepted: 13 September 1996 相似文献
7.
8.
Due to a high evolutionary turnover many satellite DNAs are restricted to a group of closely related species. Here we demonstrate
that the satellite DNA family PSUB, abundant in the beetle Palorus subdepressus, is distributed in a low number of copies among diverse taxa of Coleoptera (Insecta), some of them separated for an evolutionary
period of up to 60 Myr. Comparison of PSUB cloned from the species Tribolium brevicornis with the PSUB family previously characterized in Palorus subdepressus revealed high sequence conservation and absence of fixed species-specific mutations. The most polymorphic sites are those
with ancestral mutations shared among clones of both species. Since the ancestral mutations contribute significantly to overall
diversity, it could be proposed that a similar mutational profile already existed in an ancestral species. The pattern of
variability along the satellite monomer is characterized by the presence of conserved and variable regions. The nonrandom
pattern of variability as well as the absence of sequence divergence is also discerned for PRAT satellite DNA, cloned previously
from two Palorus species and a distantly related Pimelia elevata. Since PRAT and PSUB are present in parallel in diverse taxa of Coleoptera, we propose that their long evolutionary preservation
suggests a possible functional significance. This indication is additionally supported not only by the high evolutionary conservation
of the sequences, but also by the presence of significantly conserved and variable regions along the monomers.
[Reviewing Editor: Dr. Jerzy Jurka] 相似文献
9.
Miroslav Plohl Nevenka Mestrović Branka Bruvo Đurđica Ugarković 《Journal of molecular evolution》1998,46(2):234-239
A novel highly abundant satellite DNA comprising 20% of the genome has been characterized in Palorus subdepressus (Insecta, Coleoptera). The 72-bp-long monomer sequence is composed of two copies of T2A5T octanucleotide alternating with 22-nucleotide-long elements of an inverted repeat. Phylogenetic analysis revealed clustering
of monomer sequence variants into two clades. Two types of variants are prevalently organized in an alternating pattern, thus
showing a tendency to generate a new complex repeating unit 144 bp in length. Fluorescent in situ hybridization revealed even
distribution of the satellite in the region of pericentric heterochromatin of all 20 chromosomes. P. subdepressus satellite sequence is clearly species specific, lacking similarity even with the satellite from congeneric species P. ratzeburgii. However, on the basis of similarity in predicted tertiary structure induced by intrinsic DNA curvature and in repeat length,
P. subdepressus satellite can be classified into the same group with satellites from related tenebrionid species P. ratzeburgii, Tenebrio molitor, and T. obscurus. It can be reasonably inferred that repetitive sequences of different origin evolve under constraints to adopt and conserve
particular features. Obtained results suggest that the higher-order structure and repeat length, but not the nucleotide sequence
itself, are maintained through evolution of these species.
Received: 23 April 1997 / Accepted: 11 July 1997 相似文献
10.
11.
Telomeres of most insects are composed of simple (TTAGG)
n
repeats that are synthesized by telomerase. However, in some dipteran insects such as Drosophila melanogaster, (TTAGG)
n
repeats or telomerase activity has not been detected. Although telomere structure is well documented in Diptera and Lepidoptera,
very limited information is available on lower insect groups. To understand general aspects of telomere function and evolution
in insects, we endeavored to characterize structures of the telomeric and subtelomeric regions in a lower insect, the Taiwan
cricket, Teleogryllus taiwanemma. FISH analysis of this insect's chromosomes demonstrated (TTAGG)
n
repeat elements in all distal ends. Just proximal to the telomeric repeats, the highly conserved 9-kb long terminal unit
(LTU) sequences are tandemly repeated. These were observed in four of six chromosomes, three autosomal ends, and one X-chromosomal
end. LTU sequences represent about 0.2% of the T. taiwanemma genome. Each LTU contains a core (TTAGG)8-like sequence (TRLS) and five types of conserved sequences—ST (short telomere associated), J (joint), X, SR (satellite sequence
rich), and Y—which vary in length from about 150 bp to 2.7 kb. The LTU sequence is defined as ST–J–TRLS–SR–X–Y–X–Y–X. Most
LTU regions may be derived from the ancestral common sequence, which is observed in ST regions six times and at many other
LTU sites. We could not find the LTU-like sequence in three other crickets including the closest species, T. emma, suggesting that the LTU in T. taiwanemma has been rapidly amplified in subtelomeric regions through recent evolutional events. It is also suggested that the highly
conserved structure of the LTU is maintained by recombination and may contribute to telomere elongation, as seen in dipteran
insects.
Received: 6 August 2001/Accepted: 10 October 2001 相似文献
12.
13.
An experimental system for determining the potential ability of sequences resembling 5S ribosomal RNA (rRNA) to perform as
functional 5S rRNAs in vivo in the Escherichia coli cellular environment was devised previously. Presumably, the only 5S rRNA sequences that would have been fixed by ancestral
populations are ones that were functionally valid, and hence the actual historical paths taken through RNA sequence space
during 5S rRNA evolution would have most likely utilized valid sequences. Herein, we examine the potential validity of all
sequence intermediates along alternative equally parsimonious trajectories through RNA sequence space which connect two pairs
of sequences that had previously been shown to behave as valid 5S rRNAs in E. coli. The first trajectory requires a total of four changes. The 14 sequence intermediates provide 24 apparently equally parsimonious
paths by which the transition could occur. The second trajectory involves three changes, six intermediate sequences, and six
potentially equally parsimonious paths. In total, only eight of the 20 sequence intermediates were found to be clearly invalid.
As a consequence of the position of these invalid intermediates in the sequence space, seven of the 30 possible paths consisted
of exclusively valid sequences. In several cases, the apparent validity/invalidity of the intermediate sequences could not
be anticipated on the basis of current knowledge of the 5S rRNA structure. This suggests that the interdependencies in RNA
sequence space may be more complex than currently appreciated. If ancestral sequences predicted by parsimony are to be regarded
as actual historical sequences, then the present results would suggest that they should also satisfy a validity requirement
and that, in at least limited cases, this conjecture can be tested experimentally.
Received: 27 August 1996 / Accepted: 14 April 1997 相似文献
14.
In eight hagfish species, it is known that chromosome elimination occurs during early embryogenesis, and some highly repetitive
DNA families, restricted to germ cells, have been isolated. One of these families, ``EEEo2,' has been isolated as DNA fragments
by restriction enzyme analyses from Eptatretus okinoseanus and E. cirrhatus. In this study, EEEo2 sequences were isolated from germline DNA in E. burgeri, Paramyxine sheni, and P. atami using PCR methods. Sequence analysis revealed that these sequences are intraspecifically homogeneous, except in E. burgeri, and are interspecifically conserved with heterogeneity. The intraspecific sequence variability tends to decrease as the copy
number increases. These results indicate that EEEo2 has evolved in a concerted manner. Moreover, an ancestral repeating motif
consisting of triplicate subrepeats was deduced. These results suggest that EEEo2 arose as an initial amplification of this
subrepeat and has evolved by saltatory replication. Phylogenetic analyses suggested the possibility that EEEo2 in E. okinoseanus and E. cirrhatus has been subjected to strong homogenizing forces for concerted evolution, whereas the force is weak in E. burgeri. In addition, EEEo2 in P. sheni and P. atami appear to have been incompletely subjected to these forces. Chromosomal in situ hybridization experiments revealed that EEEo2
sequences were located along almost their entire length of several heterochromatic chromosomes that are restricted to germ
cells. These chromosomes are disposed to form a secondary association during the first meiotic metaphases, except in P. sheni. This chromosomal distribution may promote a concerted mode of sequence evolution in both nonhomologous chromosomes and homologous
chromosomes and reflect the differential driving forces between species.
Received: 17 April 1999 / Accepted: 10 September 1999 相似文献
15.
Satoru Kanai Reiko Kikuno Hiroyuki Toh Haruko Ryo Takeshi Todo 《Journal of molecular evolution》1997,45(5):535-548
The photolyase–blue-light photoreceptor family is composed of cyclobutane pyrimidine dimer (CPD) photolyases, (6-4) photolyases,
and blue-light photoreceptors. CPD photolyase and (6-4) photolyase are involved in photoreactivation for CPD and (6-4) photoproducts,
respectively. CPD photolyase is classified into two subclasses, class I and II, based on amino acid sequence similarity. Blue-light
photoreceptors are essential light detectors for the early development of plants. The amino acid sequence of the receptor
is similar to those of the photolyases, although the receptor does not show the activity of photoreactivation. To investigate
the functional divergence of the family, the amino acid sequences of the proteins were aligned. The alignment suggested that
the recognition mechanisms of the cofactors and the substrate of class I CPD photolyases (class I photolyases) are different
from those of class II CPD photolyases (class II photolyases). We reconstructed the phylogenetic trees based on the alignment
by the NJ method and the ML method. The phylogenetic analysis suggested that the ancestral gene of the family had encoded
CPD photolyase and that the gene duplication of the ancestral proteins had occurred at least eight times before the divergence
between eubacteria and eukaryotes.
Received: 23 October 1996 / Accepted: 1 April 1997 相似文献
16.
The sequence of a cloned Anopheles stephensi gene showed 72% inferred amino acid identity with Drosophila melanogaster Dox-A2 and 93% with its putative ortholog in Anopheles gambiae. Dox-A2 is the reported but herein disputed structural locus for diphenol oxidase A2. Database searches identified Dox-A2 related gene sequences from 15 non-insect species from diverse groups. Phylogenetic trees based on alignments of inferred
protein sequences, DNA, and protein motif searches and protein secondary structure predictions produced results consistent
with expectations for genes that are orthologous. The only inconsistency was that the C-terminus appears to be more primitive
in the yeasts than in plants. In mammals, plants, and yeast these genes have been shown to code for a non-ATPase subunit of
the PA700 (19S) regulatory complex of 26S proteasome. The analyses indicated that the insect genes contain no divergent structural
features, which taken within an appraisal of all available data, makes the reported alternative function highly improbable.
A plausible additional role, in which the 26S proteasome is implicated in regulation of phenol oxidase, would also apply to
at least the mammalian genes. No function has yet been reported for the other included sequences. These were from genome projects
and included Caenorhabiditus elegans, Arabidopsis thaliana, Fugu rubripes, and Toxoplasma gondii. A consensus of the results predicts a protein containing exceptionally long stretches of helix with a hydrophilic C-terminus.
Phosphorylation site motifs were identified at two conserved positions. Possible SRY and GATA-1 binding motifs were found
at conserved positions upstream of the mosquito genes. The location of A. stephensi Dox-A2 was determined by in situ hybridization at 34D on chromosome arm 3R. It is in a conserved gene cluster with respect to the
other insects. However, the A. stephensi cluster contains a gene showing significant sequence identity to human and pigeon carnitine acetyltransferase genes, therefore
showing divergence with the distal end of the D. melanogaster cluster.
Received: 3 July 1998 / Accepted: 22 December 1999 相似文献
17.
The amino acid sequences of 22 α-amylases from family 13 of glycosyl hydrolases were analyzed with the aim of revealing the
evolutionary relationships between the archaeal α-amylases and their eubacterial and eukaryotic counterparts. Two evolutionary
distance trees were constructed: (i) the first one based on the alignment of extracted best-conserved sequence regions (58
residues) comprising β2, β3, β4, β5, β7, and β8 strand segments of the catalytic (α/β)8-barrel and a short conserved stretch in domain B protruding out of the barrel in the β3 →α3 loop, and (ii) the second one
based on the alignment of the substantial continuous part of the (α/β)8-barrel involving the entire domain B (consensus length: 386 residues). With regard to archaeal α-amylases, both trees compared
brought, in fact, the same results; i.e., all family 13 α-amylases from domain Archaea were clustered with barley pI isozymes,
which represent all plant α-amylases. The enzymes from Bacillus licheniformis and Escherichia coli, representing liquefying and cytoplasmic α-amylases, respectively, seem to be the further closest relatives to archaeal α-amylases.
This evolutionary relatedness clearly reflects the discussed similarities in the amino acid sequences of these α-amylases,
especially in the best-conserved sequence regions. Since the results for α-amylases belonging to all three domains (Eucarya,
Eubacteria, Archaea) offered by both evolutionary trees are very similar, it is proposed that the investigated conserved sequence
regions may indeed constitute the ``sequence fingerprints' of a given α-amylase.
Received: 3 June 1998 / Accepted: 20 August 1998 相似文献
18.
Sequence Analyses and Phylogenetic Characterization of the ZIP Family of Metal Ion Transport Proteins 总被引:1,自引:0,他引:1
Several novel but similar heavy metal ion transporters, Zrt1, Zrt2, Zip1-4 and Irt1, have recently been characterized. Zrt1,
Zrt2 and Zip1-4 are probably zinc transporters in Saccharomyces cerevisiae and Arabidopsis thaliana whereas Irt1 appears to play a role in iron uptake in A. thaliana. The family of proteins including these functionally characterized transporters has been designated the Zrt- and Irt-related
protein (ZIP) family. In this report, ZIP family proteins in the current databases were identified and multiply aligned, and
a phylogenetic tree for the family was constructed. A family specific signature sequence was derived, and the available sequences
were analyzed for residues of potential functional significance. A fully conserved intramembranous histidyl residue, present
within a putative amphipathic, α-helical, transmembrane spanning segment, was identified which may serve as a part of an intrachannel
heavy metal ion binding site. The occurrence of a proposed extramembranal metal binding motif (H X H X H) was examined in
order to evaluate its potential functional significance for various members of the family. The computational analyses reported
in this topical review should serve as a guide to future researchers interested in the structure-function relationships of
ZIP family proteins.
Received: 31 March 1997/Revised: 14 May 1998 相似文献
19.
Gerhard Schenk Roy Layfield Judith M. Candy Ronald G. Duggleby Peter F. Nixon 《Journal of molecular evolution》1997,44(5):552-572
Members of the transketolase group of thiamine-diphosphate-dependent enzymes from 17 different organisms including mammals,
yeast, bacteria, and plants have been used for phylogenetic reconstruction. Alignment of the amino acid and DNA sequences
for 21 transketolase enzymes and one putative transketolase reveals a number of highly conserved regions and invariant residues
that are of predicted importance for enzyme activity, based on the crystal structure of yeast transketolase. One particular
sequence of 36 residues has some similarities to the nucleotide-binding motif and we designate it as the transketolase motif.
We report further evidence that the recP protein from Streptococcus pneumoniae might be a transketolase and we list a number of invariant residues which might be involved in substrate binding. Phylogenies
derived from the nucleotide and the amino acid sequences by various methods show a conventional clustering for mammalian,
plant, and gram-negative bacterial transketolases. The branching order of the gram-positive bacteria could not be inferred
reliably. The formaldehyde transketolase (sometimes known as dihydroxyacetone synthase) of the yeast Hansenula polymorpha appears to be orthologous to the mammalian enzymes but paralogous to the other yeast transketolases. The occurrence of more
than one transketolase gene in some organisms is consistent with several gene duplications. The high degree of similarity
in functionally important residues and the fact that the same kinetic mechanism is applicable to all characterized transketolase
enzymes is consistent with the proposition that they are all derived from one common ancestral gene. Transketolase appears
to be an ancient enzyme that has evolved slowly and might serve as a model for a molecular clock, at least within the mammalian
clade.
Received: 13 September 1995 / Accepted: 14 November 1996 相似文献
20.
Characterization of Repetitive DNA Elements in Arabidopsis 总被引:1,自引:0,他引:1
We have applied computational methods to the available database and identified several families of repetitive DNA elements
in the Arabidopsis thaliana genome. While some of the elements have features expected of either miniature inverted-repeat transposable elements (MITEs)
or retrotransposons, the most abundant class of repetitive elements, the AthE1 family, is structurally related to neither. The AthE1 family members are defined by conserved 5′ and 3′ sequences, but these terminal sequences do not represent either inverted
or direct repeats. AthE1 family members with greater than 98% identity are easily identified on different Arabidopsis chromosomes. Similar to nonautonomous DNA-based transposon families, the AthE1 family contains members in which the conserved terminal domains flank unrelated sequences. The primary utility of characterizing
repetitive sequences is in defining, at least in part, the evolutionary architecture of specific Arabidopsis loci. The repetitive elements described here make up approximately 1% of the available Arabidopsis thaliana genomic sequence.
Received: 13 October 1998 / Accepted: 30 December 1998 相似文献