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Showing 11 to 18 of 18 (0.039 seconds)| 11 |
Light-And Cytokinin-Regulated Plastid And Nuclear Gene Expression In Cucumber (Cucumis Sativus L)Ullanat, Rajesh 05 1900 (has links)
Light and phytohormones, such as cytokinins, have been known to play a pivotal role in numerous physiological processes in plant cells. Previous work in our laboratory has revealed the light- and cytokinin- modulated changes both in the levels of specific tRNA species and their modified nucleotide contents, in addition to the characterization of specific tRNAs and tRNA genes from higher plants. The plant hormone cytokinin, which is of particular interest to us has been implicated to be involved in processes such as induction of cell division, plastid biogenesis and delay of senescence. Ongoing work in our laboratory also points towards the role of Ca2+ as a second messenger in cytokinin mediated gene expression.
With the objective of isolation of specific tRNA genes which could then be used as probes to study the light- and phytohormone- induced changes in the levels of respective functional mature tRNAs, a previously isolated clone containing a 6.6kb insert that hybridized with 3 end labeled cucumber total cellular tRNA was sequenced by the dideoxy chain termination method. Sequence analysis of the 6.6 kb DNA fragment has revealed a chloroplast genome DNA fragment containing the trnNGUU and trnRACG genes in addition to the genes coding for the ribosomal RNAs 4.5S, 5S and 23S as well as the protein coding genes ccsA (cytochrome c-synthesis) and ndhD(NADH plastoquinone oxidoreductase).These genes were found to be arranged in the order-23S-4.5S-5S-trnRACG-trnNGUU-ccsA-ndhD. This shows a divergence from the gene organization in the completely sequenced chloroplast genomes of other higher plant species such as tobacco, maize, rice and Arabidopsis, especially with regard to the absence of a highly conserved trnLUAG gene that has been shown to be present in the trnNGUU-ndhD intergenic region. The cucumber chloroplast trnNGUU and trnRACG genes have shown very high homology (>90%) whereas ccsA and ndhD show 50-61% similarity to corresponding genes from chloroplast genomes of other plant species. The relative levels of tRNAArg and tRNAAsn were determined by Northern analysis using the tRNA gene probes, in etiolated excised cucumber cotyledons treated with light or phytohormones, such as cytokinin (BA) and auxin (2,4-D). Light and phytohormones were found to significantly increase the levels of tRNAArg unlike in the case tRNAAsn where no significant changes in the levels were observed. This result points towards the regulation of relative levels of specific tRNA species by light and cytokinin so as to match the codon usage of the mRNA population during light- and cytokinin- induced plant development in cucumber. Northern analyses were also performed to monitor the relative transcript levels of the plastid encoded ccsA and ndhD in etiolated excised cucumber cotyledons treated with light or phytohormones. ccsA transcript levels were found to be significantly reduced in auxin treated cucumber cotyledons where as exogenous application of cytokinin to either dark-grown or light exposed cotyledons did not seem to have any pronounced effect. ndhD transcripts were found to be up-regulated by cytokinin treatment or light exposure in comparison to un-treated controls probably indicating a point of overlap in the light/ cytokinin mediated signal transduction pathways. Auxin treatment on the other hand was found to down-regulate ndhD transcript levels also.
Recent studies from our laboratory have demonstrated the involvement of a calcium-dependent protein kinase(CDPK) in the cytokinin-signal transduction pathway associated with the induction of pathogenesis-related proteins (chitinase and β 1-3 modulation of nuclear-encoded CDPK transcripts in response to light and exogenously added phytohormones such as cytokinins and auxin. Towards this end, partial CDPK cDNAs were generated from Cucumis Sativus by RT-PCR using degenerate primers designed based on the conserved regions of the known CDPK proteins available in the database, cloned in pGEM-T and sequenced. Sequence analysis of twenty partial cDNA clones revealed the presence of at least four CDPK isoforms in Cucumis sativus (CuCDPK 1-4). Of the four partial CDPK cDNAs, the tissue-specific expression level of CuCDPK3 was studied using the highly sensitive Taqman Analysis (Quantitative RT-PCR). The results obtained indicate that, in excised dark-grown cucumber cotyledons light and cytokinin were found to up-regulate the levels of CuCDPK3 unlike auxin, which was found to have no significant effect. In cucumber hypocotyls, which had the highest levels of CuCDPK3, light was found to have a down-regulatory effect whereas cytokinin and auxin did not bring about any significant changes in the levels of CuCDPK3. In cucumber root tissue, both light and cytokinin were found to have a down-regulatory effect on the levels of CuCDPK3, unlike auxin. The southern analysis of cucumber genomic DNA revealed a CDPK multi-gene family in cucumber.
Since cytokinins have been known to play a role in both etioplast and chloroplast biogenesis and since various groups have recently reported the presence of higher plant homologues of bacterial cell-division protein FtsZ and the requirement of plant nuclear-encoded FtsZs for plastid division, efforts were also made to isolate and to study the expression of cucumber FtsZ in dark-grown cucumber cotyledon tissue treated exogenously with light/phytohormones. Towards this end, a partial FtsZ cDNA was generated from cucumber by RT-PCR using degenerate primers designed based on conserved regions of known plant FtsZ proteins. Results of the Taqman Analysis indicate that cytokinin, unlike auxin, mimics the action of light by increasing the levels of CuFtsZ transcripts in dark-grown cotyledon tissue suggesting the involvement of FtsZ in cytokinin-induced plastid-biogenesis.
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Mapping and restructuring of an Ae. kotschyi derived translocation segment in common wheatHeyns, I.C. 12 1900 (has links)
Thesis (PhD (Genetics))--University of Stellenbosch, 2010. / Includes bibliography. / ENGLISH ABSTRACT: The wild relatives are an important source of new genes for the genetic improvement
of wheat. At Stellenbosch University the leaf and stripe rust resistance genes Lr54 and
Yr37 were transferred from Aegilops kotschyi to chromosome 2DL of wheat. In an
attempt to reduce the size of the whole-arm translocation on which the resistance
genes occur, homoeologous pairing was induced between the wheat and
corresponding Ae. kotschyi chromatin. The purpose of this study was to: (i) Evaluate
the testcross progeny thus obtained; identify translocation recombinants that retained
Lr54/Yr37 and to characterize these using molecular markers (ii) Test for the presence
of genes for photoperiod insensitivity (Ppd) and reduced height (Rht) believed to be
associated with the translocation (iii) Develop a SCAR marker for the most useful
recombinant that could be recovered.
Ten putative translocation recombinants were identified following the
screening of 159 hemizygous testcross F1 plants with three microsatellite markers
specific for chromosome arm 2DL. The recombinants were then characterized with
another five microsatellite markers. Using the eight microsatellite markers the
recombinants were ordered in two size categories with recombinant #74 being the
shortest and having retained only proximal alien chromatin on 2DL. In addition to
microsatellite markers, RAPDs, RGAs, AFLPs and SCAR markers were genetically
mapped to the translocation and further resolved the recombinants into three size
categories. In an attempt to find suitable markers linked to the shortest recombinant
(#74) a polymorphic 410 bp AFLP fragment produced with the enzyme/selective
nucleotide combination EcoRI – AAC/MseI – CAT, was converted into a dominant
SCAR marker. In addition three microsatellite markers that mapped to recombinant
#74 provided a useful recessive molecular marker system to detect Lr54/Yr37.
Evaluation of the 10 recombinants with four 2DS-specific microsatellite markers
revealed a large deletion of this chromosome arm in recombinant #74. This deletion
may affect plant phenotypic characteristics and a strategy to replace the deleted region
in recombinant #74 is proposed. To test for the presence of a gene for photoperiod insensitivity on the translocation,
translocation-carriers plus controls were subjected to long and short day treatments,
and the effect on time to flowering was studied. However, no evidence was found for
the presence of such a gene. A height experiment to test for the presence of an Rht
gene on the translocation confirmed its presence. This gene (designated H) appeared
to be different from Rht8 on chromosome 2DS and was mapped on 2DL. While H
does not occur in a chromosome region that corresponds with the location of Rht8, it
does not rule out the possibility that they could be orthologous loci. Plant height data
obtained for recombinant #74 suggested that H was lost through recombination in this
particular recombinant. A greenhouse experiment suggested that the full-length
translocation increased 100 kernel mass but had a detrimental effect on overall plant
yield. Since a much shorter recombinant (#74) has been obtained, this will also have
to be evaluated for associated effects. Such an evaluation needs to be done under
commercial growing conditions and should involve the comparison of near-isogenic
bulks with and without recombinant chromosome #74.
The stripe rust resistance gene (Yr37) was mapped by screening hemizygous
TF2 progeny of the 10 recombinants with Puccinia striiformis pathotype 6E22A+.
Recombinant #74 retained both Lr54 and Yr37 and the two genes therefore occur
towards the centromere. / AFRIKAANSE OPSOMMING: Wilde verwante spesies is ‘n belangrike bron van nuwe gene vir die genetiese
verbetering van koring. By die Universiteit van Stellenbosch is die blaar-roes en
streep-roes weerstandsgene Lr54 en Yr37 vanaf Aegilops kotschyi na chromosoom
2DL van koring oorgedra. ‘n Poging is vervolgens aangewend om die vol-armtranslokasie
waarop die weerstandsgene voorkom te verklein deur homoeoloë paring
tussen die koring en ooreenstemmende Ae. kotschyi chromatien te induseer. Die
doelstelling van hierdie studie was daarom as volg: (a) Evaluering van die verkreë
toetskruis-nageslag asook die identifisering en karakterisering van translokasie
rekombinante wat Lr54/Yr37 behou het. (b) Toetsing vir fotoperiode onsensitiwiteits-
(Ppd) en verkorte plant-hoogte (Rht) gene wat moontlik op die translokasie kon
voorkom. (c) Die ontwikkeling van ‘n volgorde-spesifieke polimerase kettingreaksie
(PKR) vir die mees bruikbare rekombinant.
Tien translokasie rekombinante is geïdentifiseer nadat 159 hemisigotiese
toetskruis F1-plante met drie mikrosatelliet-merkers, spesifiek vir chromosoom-arm
2DL, ge-evalueer is. Die rekombinante is hierna met vyf verdere mikrosatellietmerkers
getoets. Die data van die agt mikrosatelliet-loci het die rekombinante in twee
grootte-kategorieë geplaas waarvan rekombinant #74 die kortste was met slegs die
proksimale gedeelte van 2DL wat uit vreemde chromatien bestaan. Behalwe
mikrosatellite-merkers is toevallig-geamplifiseerde polimorfiese DNS (RAPD),
weerstandsgeen-analoog (RGA), geamplifiseerde volgordelengte polimorfisme
(AFLP) en volgorde-gekarakteriseerde geamplifiseerde-streke (SCAR) merkers ook
geneties op die translokasie gekarteer. Data van die addisionele merkers het dit
moontlik gemaak om die rekombinante in drie grootte-kategorieë te skei. Pogings om
‘n merker vir die kortse rekombinant (#74) te vind, het gelei tot die omskakeling van
‘n 410 bp polimorfiese AFLP-fragment (geproduseer met die ensiem/selektiewenukleotied
kombinasie EcoRI - AAC/MseI - CAT), na ‘n dominante, volgordespesifieke
PKR-merker. Hierbenewens kan drie mikrosatelliet-merkers wat op
rekombinant #74 karteer as resessiewe merkers vir die identifisering van Lr54/Yr37
gebruik word. Die evaluering van die 10 rekombinante met vier chromosoom 2DSspesifieke
mikrosatelliet-merkers het ‘n groot delesie van chromosoom-arm 2DS in rekombinant #74 uitgewys. Die delesie mag plant fenotipiese kenmerke beïnvloed en
daarom is ‘n strategie vir die vervanging daarvan in rekombinant #74 voorgestel.
Ten einde te toets of ‘n geen vir fotoperiode-onsensitiwiteit op die translokaie
voorkom is translokasie-draers en kontroles aan lang- en kortdag-behandelings
onderwerp en is die effek hiervan op dae-tot-blom gemeet. Geen bewyse vir so ‘n
geen kon gevind word nie. ‘n Hoogte-eksperiment om te toets vir die teenwoordigheid
van ‘n Rht-geen op die translokasie, het bevestig dat so ‘n geen wel voorkom. Die
geen (voorgestelde simbool H) is gekarteer op 2DL en verskil oënskynlik van Rht8 op
chromosoom 2DS. Die verskillende chromosoom-ligging van H en Rht8 skakel egter
nie die moontlikheid dat hulle ortoloë loci mag wees uit nie. Plant-hoogte data vir
rekombinant #74 het daarop gedui dat H nie meer in hierdie rekombinant voorkom
nie. Data van ‘n glashuis-eksperiment het daarop gedui dat die vollengte-translokasie
100-korrel-massa verhoog maar dat dit plant-opbrengs verlaag. Aangesien ‘n
aansienlike korter rekombinant (#74) verkry is, sal dit ook vir gekoppelde effekte
getoets moet word. So ‘n evaluering moet egter onder kommersiële toestande gedoen
word met gebruik van naby isogeniese-lyne met en sonder rekombinante chromosoom
#74.
Die streep-roes weerstandgeen (Yr37) is gekarteer deur hemisigotiese TF2-
nageslag van die 10 rekombinante te toets vir weerstand teen Puccinia striiformis
patotipe 6E22A+. Rekombinant #74 het beide Lr54 en Yr37 behou en die twee gene
karteer dus naby die sentromeer.
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Molecular analysis of the oral microbiota of dental diseasesKanasi, Eleni January 2008 (has links)
Traditionally, bacterial culture has been used for bacterial detection, allowing study of living microorganisms. Molecular methods are rapid and allow simultaneous identification of numerous species and uncultivated phylotypes. The objective of this doctoral thesis was to investigate the role of the oral microbiota, including poorly characterized and uncultivated bacteria, in dental caries and periodontitis, by comprehensive molecular, clinical, and statistical methods. The microbiota of 275 pre-school children (75 with caries and 200 caries-free) was examined by whole genomic DNA probes, 16S rDNA cloning and sequencing, and PCR. Streptococcus mutans, exhibiting a combined association with Streptococcus sobrinus, was significantly associated with Early Childhood Caries (ECC). Plaque from children with Severe Early Childhood Caries (S-ECC) was diverse with 138 identified and 107 unidentified taxa, which possibly included novel phylotypes. Other species/phylotypes associated with childhood caries included Lactobacillus gasseri (p<0.01), Lactobacillus fermentum, Actinomyces israelii, and Actinomyces odontolyticus (all p<0.05, ECC), Veillonella parvula (p<0.01), Veillonella atypica (p<0.05), and Veillonella sp. HOT-780 (p<0.01, S-ECC). Lactobacillus acidophilus and Lactobacillus reuteri, both used as probiotic therapy species, were detected more frequently in caries-free children than those with ECC. Fastidious periodontal species, including Parvimonas micra, Aggregatibacter actinomycetemcomitans, Eubacterium brachy, Filifactor alocis (all p <0.05), and Porphyromonas gingivalis (p<0.01), were also more frequently detected in children with dental caries than in caries-free children. Other variables associated with ECC were race, dental visit, snacking (all p<0.05), and visible dental plaque (p<0.01). The oral microbiota of early periodontitis in young adults (N=141) was analyzed by whole genomic and oligonucleotide DNA probes, and PCR. Species detected more frequently in early periodontitis than periodontal health included Treponema denticola, F. alocis, Porphyromonas endodontalis, Bacteroidetes sp. HOT-274 (oral clone AU126), and A. odontolyticus (p<0.01) by oligonucleotide DNA probes, and P. gingivalis (p<0.001) and T. forsythia (p=0.03) by PCR. Subgingival samples exhibited a higher prevalence of periodontitis-associated species than samples from tongue surface, including A. actinomycetemcomitans, T. denticola, T. forsythia (all p<0.05), and uncultivated TM7, Treponema, and Actinobaculum clones (all p<0.05). P. gingivalis (p<0.01) by PCR was associated with periodontal disease progression. Early periodontitis was associated with older age (p=0.01), male gender (p=0.04), and cigarette smoking (p=0.05). The role of bacterial subgroups in periodontitis was examined by studying the serotypeability of 313 genotyped clinical A. actinomycetemcomitans isolates (189 subjects). A total of 95 strains (30 subjects) remained non-serotypeable, although PCR revealed presence of the serotype- specific genes. The absence of the immunodominant serotype-specific antigen was confirmed by immunoblot assays. No major DNA rearrangement in the studied serotype-specific gene clusters was found. In summary, detection of previously cultured species and uncultivated phylotypes revealed the diversity of the oral microbiota in dental diseases and health already early in life. Bacterial species have insufficiently characterized subgroups that may have attributes to evade the host response. Molecular approaches used in this study enable comprehensive, culture-independent characterization of the oral microbiome that may in the future lead to identification of diagnostic bacterial profiles for dental diseases.
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Filtragem robusta de SNPs utilizando redes neurais em DNA genômico completoSilva, Bruno Zonovelli da 25 June 2013 (has links)
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Previous issue date: 2013-06-25 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Com o crescente avanço das plataformas de sequenciamento genômico, surge a necessidade
de modelos computacionais capazes de analisar, de forma eficaz, o grande volume de dados
disponibilizados. Uma das muitas complexidades, variações e particularidades de um
genoma são os polimorfismos de base única (single nucleotide polymorphisms - SNPs), que
podem ser encontrados no genoma de indivíduos isoladamente ou em grupos de indivíduos
de alguma população, sendo originados a partir de inserções, remoções ou substituições
de bases.
Alterações de um único nucleotídeo, como no caso de SNPs, podem modificar a produção de uma determinada proteína. O conjunto de tais alterações tende a provocar
variações nas características dos indivíduos da espécie, que podem gerar alterações funcionais
ou fenotípicas, que, por sua vez, implicam, geralmente, em consequências evolutivas
nos indivíduos em que os SNPs se manifestam.
Entre os vários desafios em bioinformática, encontram-se a descoberta e filtragem de
SNPs em DNA genômico, etapas de relevância no pós-processamento da montagem de um
genoma. Este trabalho propõe e desenvolve um método computacional capaz de filtrar
SNPs em DNA genômico completo, utilizando genomas remontados a partir de sequências
oriundas de plataformas de nova geração. O modelo computacional desenvolvido baseia-se
em técnicas de aprendizado de máquina e inteligência computacional, com o objetivo de
obter um filtro eficiente, capaz de classificar SNPs no genoma de um indivíduo, independente
da plataforma de sequenciamento utilizada. / With the growing advances in genomic sequencing platforms, new developments on computational
models are crucial to analyze, effectively, the large volume of data available.
One of the main complexities, variations and peculiarities of a genome are single nucleotide
polymorphisms (SNPs). The SNPs, which can be found in the genome of isolated
individuals or groups of individuals of a specific population, are originated from inserts,
removals or substitutions of bases.
Single nucleotide variation, such as SNPs, can modify the production of a protein.
Combination of all such modifications tend to determine variations on individuals characteristics
of the specie. Thus, this phenomenon usually produces functional or phenotypic
changes which, in turn, can result in evolutionary consequences for individuals with expressed
SNPs.
Among the numerous challenges in bioinformatics, the discovery and filtering of SNPs
in genomic DNA is considered an important steps of the genome assembling post-processing.
This dissertation has proposed and developed a computational method able to filtering
SNPs in genome, using the genome assembled from sequences obtained by new generation
platforms. The computational model presented is based on machine learning and computational
intelligence techniques, aiming to obtain an efficient filter to sort SNPs in the
genome of an individual, regardless of the sequencing platform adopted.
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Interrogation of Nucleic Acids by Parallel ThreadingPettersson, Erik January 2007 (has links)
Advancements in the field of biotechnology are expanding the scientific horizon and a promising era is envisioned with personalized medicine for improved health. The amount of genetic data is growing at an ever-escalating pace due to the availability of novel technologies that allow massively parallel sequencing and whole-genome genotyping, that are supported by the advancements in computer science and information technologies. As the amount of information stored in databases throughout the world is growing and our knowledge deepens, genetic signatures with significant importance are discovered. The surface of such a set in the data mining process may include causative- or marker single nucleotide polymorphisms (SNPs), revealing predisposition to disease, or gene expression signatures, profiling a pathological state. When targeting a reduced set of signatures in a large number of samples for diagnostic- or fine-mapping purposes, efficient interrogation and scoring require appropriate preparations. These needs are met by miniaturized and parallelized platforms that allow a low sample and template consumption. This doctoral thesis describes an attempt to tackle some of these challenges by the design and implementation of a novel assay denoted Trinucleotide Threading (TnT). The method permits multiplex amplification of a medium size set of specific loci and was adapted to genotyping, gene expression profiling and digital allelotyping. Utilizing a reduced number of nucleotides permits specific amplification of targeted loci while preventing the generation of spurious amplification products. This method was applied to genotype 96 individuals for 75 SNPs. In addition, the accuracy of genotyping from minute amounts of genomic DNA was confirmed. This procedure was performed using a robotic workstation running custom-made scripts and a software tool was implemented to facilitate the assay design. Furthermore, a statistical model was derived from the molecular principles of the genotyping assay and an Expectation-Maximization algorithm was chosen to automatically call the generated genotypes. The TnT approach was also adapted to profiling signature gene sets for the Swedish Human Protein Atlas Program. Here 18 protein epitope signature tags (PrESTs) were targeted in eight different cell lines employed in the program and the results demonstrated high concordance rates with real-time PCR approaches. Finally, an assay for digital estimation of allele frequencies in large cohorts was set up by combining the TnT approach with a second-generation sequencing system. Allelotyping was performed by targeting 147 polymorphic loci in a genomic pool of 462 individuals. Subsequent interrogation was carried out on a state-of-the-art massively parallelized Pyrosequencing instrument. The experiment generated more than 200,000 reads and with bioinformatic support, clonally amplified fragments and the corresponding sequence reads were converted to a precise set of allele frequencies. / QC 20100813
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Structural Properties Of Genome Sequences - Application To Promoter PredictionKanhere, Aditi 02 1900 (has links) (PDF)
No description available.
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A Novel Approach to Identify Candidate Imprinted Genes in HumansShapiro, Jonathan 21 March 2012 (has links)
Many imprinted genes are necessary for normal human development. Approximately 70 imprinted genes have been identified in humans. I developed a novel approach to identify candidate imprinted genes in humans using the premise that imprinted genes are often associated with nearby parent-of-origin-specific DNA differentially methylated regions (DMRs). I identified parent-of-origin-specific DMRs using sodium bisulfite-based DNA (CpG) methylation profiling of uniparental tissues, mature cystic ovarian teratoma (MCT) and androgenetic complete hydatidiform mole (AnCHM), and biparental tissues, blood and placenta. In support of this approach, the CpG methylation profiling led to the identification of parent-of-origin-specific differentially methylated CpG sites (DMCpGs) in known parent-of-origin-specific DMRs. I found new DMRs for known imprinted genes NAP1L5 and ZNF597. Most importantly, I discovered many new DMCpGs, which were associated with nearby genes, i.e., candidate imprinted genes. Allelic expression analyses of one candidate imprinted gene, AXL, suggested polymorphic imprinting of AXL in human blood.
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A Novel Approach to Identify Candidate Imprinted Genes in HumansShapiro, Jonathan 21 March 2012 (has links)
Many imprinted genes are necessary for normal human development. Approximately 70 imprinted genes have been identified in humans. I developed a novel approach to identify candidate imprinted genes in humans using the premise that imprinted genes are often associated with nearby parent-of-origin-specific DNA differentially methylated regions (DMRs). I identified parent-of-origin-specific DMRs using sodium bisulfite-based DNA (CpG) methylation profiling of uniparental tissues, mature cystic ovarian teratoma (MCT) and androgenetic complete hydatidiform mole (AnCHM), and biparental tissues, blood and placenta. In support of this approach, the CpG methylation profiling led to the identification of parent-of-origin-specific differentially methylated CpG sites (DMCpGs) in known parent-of-origin-specific DMRs. I found new DMRs for known imprinted genes NAP1L5 and ZNF597. Most importantly, I discovered many new DMCpGs, which were associated with nearby genes, i.e., candidate imprinted genes. Allelic expression analyses of one candidate imprinted gene, AXL, suggested polymorphic imprinting of AXL in human blood.
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