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Pivot Concepts:
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Target Concepts:
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Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In two German families four patients containing the A3243G mutant in the mitochondrial DNA suffered from maternally-inherited diabetes and
deafness
(MIDD). DNA was isolated from oral mucosa cells. Using the polymerase chain reaction with not yet published primers, we obtained after digestion with the restriction
endonuclease
BSP 1201 two oligonucleotides of comparable size increasing the sensitivity of our method two times. Under these conditions we were able to detect 0.8% of the mutated DNA. In general, the patients show the characteristics proposed for MIDD by Maassen et al. (1997), however, there are some differences: age at onset (in our study 36-45 y), body mass index (>26 kg/m2). In addition, our study shows that MIDD may be combined with neuronal disorders (M. Parkinson, epilepsy) and/or endocrinopathies (M. Addison). Our data indicate that MIDD is a heterogeneous disease. On the other hand, in one family there are healthy probands with a high concentration of mutated mitochondrial DNA.
...
PMID:Maternally-inherited diabetes and deafness: report of two affected German families with the A3243G mitochondrial DNA mutation. 983 3
The
deafness
-associated 7472insC mtDNA mutation was previously shown to decrease the steady-state level of tRNA(Ser(UCN)) post-transcriptionally. To identify the affected tRNA maturation step(s) we analysed the effects of the mutation on processing in vivo and in vitro. tRNA(Ser(UCN)) from cybrid cells homoplasmic for 7472insC contained a high frequency (>11%) of molecules misprocessed at one or both termini. In vitro assays using partially purified HeLa cell RNase P and mitochondrial tRNA 3' processing
endonuclease
(tRNase Z) confirmed that the efficiency of both 5' and 3' processing was impaired. A mutant precursor not already processed at the 5' end was poorly processed in vitro by tRNase Z. Misprocessing at the 3' end further impaired the efficiency and accuracy of 5' processing of the mutant substrate. The mutation thus appears to affect several distinct, but interdependent, RNA processing steps, with the predicted outcome dependent on the exact processing pathway operating in vivo.
...
PMID:The 7472insC mtDNA mutation impairs 5' and 3' processing of tRNA(Ser(UCN)). 1533 35
Human GATA3 haploinsufficiency leads to HDR (hypoparathyroidism,
deafness
, and renal dysplasia) syndrome. The development of a specific subset of organs in which this transcription factor is expressed appears exquisitely sensitive to gene dosage. We report on a 14-year-old patient with symptomatic hypoparathyroidism, sensorineural bilateral
deafness
, unilateral renal dysplasia, bilateral palpebral ptosis, and horizontal nystagmus. Fundoscopy displayed symmetrical pseudopapilledema, and brain CT scan revealed basal ganglia calcifications. FISH analysis did not disclose any microdeletion in the 22q11.2 or 10p14 regions. GATA3 mutation analysis identified a heterozygous deletion of GG nucleotides at codon 36 and 37 (c.108_109delGG) in exon 2 causing a frameshift with a premature stop codon after a new 15-aminoacid sequence. Restriction
endonuclease
analysis performed in parents was negative. Our patient carries a novel "de novo" GATA3 mutation, providing further evidence that HDR syndrome is caused by haploinsufficiency of GATA3, which may be responsible for a complex neurologic picture besides the known triad.
...
PMID:HDR syndrome: a novel "de novo" mutation in GATA3 gene. 1924 80
The objective of this study was to apply the "on/off" switch consisting of 3' phosphorothioate-modified allele specific primers and exo(+) polymerase in single base discrimination of A1555G and C1494T mutations in the highly conserved sites of the mitochondrial 12S rRNA. The two point mutations are the hotspot mutations associated with either aminoglycoside antibiotics induced
deafness
or inherited nonsyndromic hearing loss. The PCR products of mitochondrial DNA (mtDNA) 12S rRNA gene were inserted into the pMD19-T vector for transformation into Escherichia coli JM109 competent cells for preparing wild-type pMD19-T/mt vector. Inverse PCR was carried out for mtDNA 12S rRNA gene C1494T and A1555G mutagenesis and DpnI
endonuclease
degradating methylated pMD19-T/mt vector existing in the inverse PCR products was carried out to construct the mutation-type pMD19-T/mtM vector. These constructed vectors were confirmed by DNA sequencing. Allelic specific primers targeting wild-type and mutation-type templates were designed with 3' terminal phosphorothioate modification. Two-directional primer extension was performed using Pfu polymerases. Amplified by exo(+) polymerase, allelic specific primers perfectly matching wild-type allele were extended while no products were produced from primers targeting point-mutated
deafness
-related allele. Similarly, allelic specific primers perfectly matching point-mutated
deafness
-related mutation-type allele were extended and no products were yielded from primers targeting wild-type allele. No specific product was observed in the primer extension reaction mediated by on/off switch in screening the mtDNA 12S rRNA gene harboring either C1494T or A1555G mutation in 40 healthy volunteers tested. These data suggest that the "off switch" mediated by exo(+) polymerase is highly reliable in the diagnosis of monogenic diseases and the novel "on/off" switch has enormous applications in systematic and extended screening of the12S rRNA gene A1555G and C1494T mutations. The established assay can be widely used not only for hearing loss patients but also for normal subjects before the use of aminoglycoside antibiotics.
...
PMID:Discrimination of A1555G and C1494T point mutations in the mitochondrial 12S rRNA gene by on/off switch. 2206 89
Hereditary hearing loss (HHL) is a neurosensory disorder that affects every 1/500 newborns worldwide and nearly 1/3 people over the age of 65. Congenital deafness is inherited as monogenetic or polygenic disorder. The delicacy, tissue heterogeneity, deep location of the inner ear down the brainstem, and minute quantity of cells present in cochlea are the major challenges for current therapeutic approaches to cure
deafness
. Targeted genome editing is considered a suitable approach to treat HHL since it can target defective molecular components of auditory transduction to restore normal cochlear function. With the advent of CRISPR/Cas9 technique, targeted genome editing and biomedical research have been revolutionized. The robustness and simplicity of this technology lie in its design and delivery methods. It can directly deliver a complex of Cas9
endonuclease
and single guide RNA (sgRNA) into zygote using either vector-mediated stable transfection or transient delivery of ribonucleoproteins complexes. This strategy induces DNA double strand breaks (DSBs) at target site followed by endogenous DNA repairing mechanisms of the cell. CRISPR/Cas9 has been successfully used in model animals to edit hearing genes like calcium and integrin-binding protein 2, myosin VIIA, Xin-actin binding repeat containing 2, leucine-zipper and sterile-alpha motif kinase Zak, epiphycan, transmembrane channel-like protein 1, and cadherin 23. This review discusses the utility of lipid-mediated transient delivery of Cas9/sgRNA complexes, an efficient way to restore hearing in humans, suffering from HHL. Notwithstanding, challenges like PAM requirement, HDR efficiency, off-target activity, and optimized delivery systems need to be addressed.
...
PMID:CRISPR/Cas9: targeted genome editing for the treatment of hereditary hearing loss. 3191 50
