scholarly journals Genetic characterization of the Mutator system in maize: behavior and regulation of Mu transposons in a minimal line.

Genetics ◽  
1995 ◽  
Vol 139 (4) ◽  
pp. 1777-1796 ◽  
Author(s):  
D Lisch ◽  
P Chomet ◽  
M Freeling
Keyword(s):  
Copy Number ◽  
Genetic Characterization ◽  
Regulatory Element ◽  
Sexual Transmission ◽  
Mendelian Inheritance ◽  
High Copy Number ◽  
Chromosomal Position ◽  
Mutator Activity

Abstract Most Mutator lines of maize harbor several different classes of Mu transposons, each of which may be present in high copy number. The regulatory element is also often found in high copy number, and it is this element's behavior that is presumed to cause the non-Mendelian inheritance of Mutator activity. Using a very simple Mutator line, we demonstrate tha MuDR-1, a regulator of the Mutator system, can functionally replace standard non-Mendelian Mutator activity and that MuDR-1 is associated with the loss of methylation of the termini of another Mu transposon. Further, we show that Mu transposons can transpose duplicatively, that reinsertion tends to be into unlinked sites, and that MuDR-1 frequently suffers deletions. Changes in chromosomal position and the mode of sexual transmission are shown to be associated with changes in the frequency of MuDR-1 duplication and with the activity of MuDR-1 as monitored by the excision frequency of a reporter transposon of the Mu family, Mu1. Our data are derived from a Minimal Mutator Line in which there are relatively few Mu transposons, including one MuDR-1 regulator and as few as one Mu1 reporter. The seemingly enigmatic results that have been obtained using more complicated Mu genotypes are reinterpreted using simple Mendelian principles. We have borrowed a gap-repair model from Drosophila biologists to explain both duplications and deletions of MuDR-1.

Characterization of High-Copy-Number Retrotransposons From the Large Genomes of the Louisiana Iris Species and Their Use as Molecular Markers

Genetics ◽  
2003 ◽  
Vol 164 (2) ◽  
pp. 685-697 ◽  
Author(s):  
Edward K Kentner ◽  
Michael L Arnold ◽  
Susan R Wessler
Keyword(s):  
Molecular Markers ◽  
Copy Number ◽  
High Copy Number ◽  
Marker System ◽  
Transposon Display ◽  
Plant Genomes ◽  
Large Plant ◽  
Backcross Hybrids ◽  
Abundance And Distribution

Abstract The Louisiana iris species Iris brevicaulis and I. fulva are morphologically and karyotypically distinct yet frequently hybridize in nature. A group of high-copy-number TY3/gypsy-like retrotransposons was characterized from these species and used to develop molecular markers that take advantage of the abundance and distribution of these elements in the large iris genome. The copy number of these IRRE elements (for iris retroelement), is ∼1 × 105, accounting for ∼6–10% of the ∼10,000-Mb haploid Louisiana iris genome. IRRE elements are transcriptionally active in I. brevicaulis and I. fulva and their F1 and backcross hybrids. The LTRs of the elements are more variable than the coding domains and can be used to define several distinct IRRE subfamilies. Transposon display or S-SAP markers specific to two of these subfamilies have been developed and are highly polymorphic among wild-collected individuals of each species. As IRRE elements are present in each of 11 iris species tested, the marker system has the potential to provide valuable comparative data on the dynamics of retrotransposition in large plant genomes.

scholarly journals Cloning of the Mutator transposable element MuA2, a putative regulator of somatic mutability of the a1-Mum2 allele in maize.

Genetics ◽  
1991 ◽  
Vol 129 (3) ◽  
pp. 845-854 ◽  
Author(s):  
M M Qin ◽  
D S Robertson ◽  
A H Ellingboe
Keyword(s):  
Transposable Elements ◽  
Transposable Element ◽  
Copy Number ◽  
Inverted Repeats ◽  
Terminal Inverted Repeats ◽  
Somatic Instability ◽  
Mutator Activity ◽  
Element System ◽  
Lines Of Evidence

Abstract The identification of the autonomous or transposase-encoding element of the Mutator (Mu) transposable element system of maize is necessary to the characterization of the system. We reported previously that a transcript homologous to the internal region of the MuA element is associated with activity of the Mutator system. We describe here the cloning of another Mu element, designated MuA2, that cosegregates with Mutator activity as assayed by somatic instability of the a1-Mum2 allele. The MuA2 element has features typical of the transposable elements of the Mutator family, including the 210-bp terminal inverted repeats. Several lines of evidence suggest that MuA2 is an autonomous or transposase-encoding element of the Mu family: (1) MuA2 cosegregates with a genetically defined element that regulates somatic mutability of the a1-Mum2 allele; (2) MuA2 is hypomethylated while most other MuA2-hybridizing sequences in the genome are extensively methylated; (3) the increase of the copy number of MuA2 is concomitant with the increase of regulator elements; (4) MuA2-like elements are found in Mutator lines but not in non-Mutator inbreds. We propose that autonomous or transposase-encoding elements of the Mu family may be structurally conserved and MuA2-like.

Cloning and Characterization of a High-Copy-Number Novel Insertion Sequence from ChemolithotrophicThiobacillus ferrooxidans

Plasmid ◽  
1997 ◽  
Vol 38 (2) ◽  
pp. 129-134 ◽  
Author(s):  
Ranadhir Chakraborty ◽  
Chirajyoti Deb ◽  
Anuradha Lohia ◽  
Pradosh Roy
Keyword(s):  
Copy Number ◽  
Insertion Sequence ◽  
High Copy Number

scholarly journals Detection of copy number variants in African goats using whole genome sequence data

2020 ◽  
Author(s):  
Wilson Nandolo ◽  
Gábor Mészáros ◽  
Maria Wurzinger ◽  
Liveness J. Banda ◽  
Timothy N. Gondwe ◽  
...  
Keyword(s):  
Copy Number ◽  
Genetic Characterization ◽  
Sequence Data ◽  
Copy Number Variants ◽  
Whole Genome Sequence ◽  
African Countries ◽  
Body Of Knowledge ◽  
Number Variation ◽  
Cellular Components

Abstract BackgroundCopy number variations (CNV) are a significant source of variation in the genome, as such they are essential to the genetic characterization of animal breeds. The aim of this study was to develop a fine-scaled copy number variation map for African goats. We used sequence data from multiple breeds and from multiple African countries. ResultsA total of 253,553 CNV (244,876 deletions and 8,677 duplications) were identified, corresponding to an overall average of 1,393 CNV per animal. The mean CNV length was 3.3 kb, with a median of 1.3 kb. There was substantial differentiation between the populations for some CNV, suggestive of the effect of population-specific selective pressures. A total of 6,231 global CNV regions (CNVR) were found across all animals, representing 59.2 Mb (2.4%) of the goat genome. About 1.6% of the CNVR were present in all 34 breeds and 28.7% were present in all 5 geographical areas across Africa, where animals had been sampled. The CNVR had genes that were highly enriched in important biological functions, molecular functions, and cellular components including retrograde endocannabinoid signaling, glutamatergic synapse and circadian entrainment. ConclusionsThis study presents the first fine CNV map of African goat based on WGS data and adds to the growing body of knowledge on the genetic characterization of goats.

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