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genomic DNA

About: genomic DNA is a research topic. Over the lifetime, 15046 publications have been published within this topic receiving 663636 citations. The topic is also known as: genomic deoxyribonucleic acid & gDNA.


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Journal ArticleDOI
TL;DR: LAM-HTGTS assays are sensitive, reproducible, relatively inexpensive, scalable and straightforward to implement with a turnaround time of <1 week, and differs from related approaches because it detects a wide range of broken end structures with nucleotide-level resolution.
Abstract: Unbiased, high-throughput assays for detecting and quantifying DNA double-stranded breaks (DSBs) across the genome in mammalian cells will facilitate basic studies of the mechanisms that generate and repair endogenous DSBs. They will also enable more applied studies, such as those to evaluate the on- and off-target activities of engineered nucleases. Here we describe a linear amplification-mediated high-throughput genome-wide sequencing (LAM-HTGTS) method for the detection of genome-wide 'prey' DSBs via their translocation in cultured mammalian cells to a fixed 'bait' DSB. Bait-prey junctions are cloned directly from isolated genomic DNA using LAM-PCR and unidirectionally ligated to bridge adapters; subsequent PCR steps amplify the single-stranded DNA junction library in preparation for Illumina Miseq paired-end sequencing. A custom bioinformatics pipeline identifies prey sequences that contribute to junctions and maps them across the genome. LAM-HTGTS differs from related approaches because it detects a wide range of broken end structures with nucleotide-level resolution. Familiarity with nucleic acid methods and next-generation sequencing analysis is necessary for library generation and data interpretation. LAM-HTGTS assays are sensitive, reproducible, relatively inexpensive, scalable and straightforward to implement with a turnaround time of <1 week.

193 citations

Journal ArticleDOI
TL;DR: Results indicate that the stem-loop structure called the dimerization initiation site is a cis element acting on both genomic RNA packaging and synthesis of proviral DNA.
Abstract: In retroviruses, the genomic RNA is in the form of a 60S-70S complex composed of two identical genome-length RNA molecules tightly associated through numerous interactions. A major interaction, called the dimer linkage structure, has been found near the RNA 5' end and is probably involved in the control of translation, packaging, and recombination during proviral DNA synthesis. Recently, a small sequence corresponding to a stem-loop structure located in the 5' leader of human immunodeficiency virus type 1 (HIV-1) RNA was found to be required for the initiation of HIV-1 RNA dimerization in vitro and named the dimerization initiation site (E. Skripkin, J.-C. Paillart, R. Marquet, B. Ehresmann, and C. Ehresmann, Proc. Natl. Acad. Sci. USA 91: 4945-4949, 1994). To investigate the possible role of this 5' stem-loop in HIV-1 virion formation and infectivity, four mutant viruses were generated and analyzed in vivo. Results show that deletion of the stem-loop structure reduces infectivity by a factor of 10(3) whereas loop substitutions cause a decrease of 10- to 100-fold. The level of genomic RNA packaging was found to be decreased fivefold in mutants virions containing the stem-loop deletion and only twofold in the loop-substituted virions. Surprisingly, the second DNA strand transfer during reverse transcription was found to be severely impaired upon stem-loop deletion. Taken together, these results indicate that the stem-loop structure called the dimerization initiation site is a cis element acting on both genomic RNA packaging and synthesis of proviral DNA.

192 citations

Journal ArticleDOI
TL;DR: Knowledge of the structure of the human 3 beta-HSD gene should permit investigation of the molecular defects responsible for 3BetaHSD deficiency, the second most common cause of adrenal hyperplasia in children.

192 citations

Journal ArticleDOI
TL;DR: The presence of unique restriction enzyme sites in these conserved flanking sequences has enabled calculations on the size of the full-length gene and the numbers of repeats in it: depending on the source of genomic DNA, the gene contains 10, 11, or 12 filaggrin repeats that segregate in kindred families by normal Mendelian genetic mechanisms.
Abstract: Profilaggrin is a major protein component of the keratohyalin granules of mammalian epidermis. It is initially expressed as a large polyprotein precursor and is subsequently proteolytically processed into individual functional filaggrin molecules. We have isolated genomic DNA and cDNA clones encoding the 5'- and 3'-ends of the human gene and mRNA. The data reveal the presence of likely "CAT" and "TATA" sequences, an intron in the 5'-untranslated region, and several potential regulatory sequences. While all repeats are of the same length (972 bp, 324 amino acids), sequences display considerable variation (10-15%) between repeats on the same clone and between different clones. Most variations are attributable to single-base changes, but many also involve changes in charge. Thus, human filaggrin consists of a heterogeneous population of molecules of different sizes, charges, and sequences. However, amino acid sequences encoding the amino and carboxyl termini are more conserved, as are the 5' and 3' DNA sequences flanking the coding portions of the gene. The presence of unique restriction enzyme sites in these conserved flanking sequences has enabled calculations on the size of the full-length gene and the numbers of repeats in it: depending on the source of genomic DNA, the gene contains 10, 11, or 12 filaggrin repeats that segregate in kindred families by normal Mendelian genetic mechanisms. This means that the human profilaggrin gene system is also polymorphic with respect to size due to simple allelic differences between different individuals. The amino- and carboxyl-terminal sequences of profilaggrin contain partial or truncated repeats with unusual un-filaggrin-like sequences on the termini.(ABSTRACT TRUNCATED AT 250 WORDS)

192 citations

Journal ArticleDOI
TL;DR: These robust SSRs are of particular use in comparative studies, and as the EST-SSRs are within the expressed portion of the genome, they are more likely to be associated with a particular gene of interest, improving their utility for quantitative trait loci mapping and allowing detection of selective sweeps at specific genes.
Abstract: Traditionally, simple sequence repeat (SSR) markers have been developed from libraries of genomic DNA. However, the large, repetitive nature of conifer genomes makes development of robust, single-copy SSR markers from genomic DNA difficult. Expressed sequence tags (ESTs), or sequences of messenger RNA, offer the opportunity to exploit single, low-copy, conserved sequence motifs for SSR development. From a 20,275-unigene spruce EST set, we identified 44 candidate EST-SSR markers. Of these, 25 amplified and were polymorphic in white, Sitka, and black spruce; 20 amplified in all 23 spruce species tested; the remaining five amplified in all except one species. In addition, 101 previously described spruce SSRs (mostly developed from genomic DNA), were tested. Of these, 17 amplified across white, Sitka, and black spruce. The 25 EST-SSRs had approximately 9% less heterozygosity than the 17 genomic-derived SSRs (mean H=0.65 vs 0.72), but appeared to have less null alleles, as evidenced by much lower apparent inbreeding (mean F=0.046 vs 0.126). These robust SSRs are of particular use in comparative studies, and as the EST-SSRs are within the expressed portion of the genome, they are more likely to be associated with a particular gene of interest, improving their utility for quantitative trait loci mapping and allowing detection of selective sweeps at specific genes.

192 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
2023258
2022431
2021232
2020261
2019273
2018339