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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
At the cellular level, Alzheimer's disease (AD) must be the result of neuronal dysfunction and degeneration leading to a reduction in synaptic density. Filamentous deposits of amyloid, which define the disease at the molecular level, occur within perikarya, axons, dendrites, and terminals of neurons as neurofibrillary tangles (NFT), in the extracellular neuropil as amyloid plaques (
APC
), and around blood vessels as amyloid congophilic angiopathy (ACA). These fibrillar amyloid protein aggregates are also found in the brain of all individuals with Down's syndrome after the age of 30 years. The amyloid deposits apparently occur in the terminal zones of neurons that develop NFT. It is suggested that amyloid deposition is of fundamental significance in AD and that a thorough understanding of amyloid formation will eventually lead to successful therapeutic intervention in AD. As elucidation of the reasons behind amyloid deposition must shed some light on the pathogenesis of AD, we review the current state of knowledge on the nature of the AD amyloid protein, its origin, and its formation. Although there is yet no agreement about the chemical nature of the amyloid protein of NFT, the major constituent of both
APC
and ACA has been shown to be a 4.5-kD amyloid protein originally termed "beta-protein" or "amyloid A4" which we now denote as "beta A4." Amyloid beta A4 protein is proteolytically derived from a transmembrane protein termed amyloid precursor protein (APP) which is encoded by a widely expressed gene on
chromosome 21
. Our present results are consistent with the possibility that amyloid formation requires membrane damage or APP molecules that are not or are incorrectly integrated into membranes. To allow the generation of the C-terminus of beta A4, one proteolytic cleavage step has to occur in the sequence that normally forms the transmembrane domain of the APP proteins. This cleavage is crucial for amyloid formation because we could show that the ability of synthetic beta A4 to form amyloid depositions is mainly based on hydrophobic parts of the sequence that have to interact with each other and build up large aggregates under physiologic conditions. Membrane association of APP is expected to interfere with this cleavage and the process of aggregation.
...
PMID:Mechanisms of amyloid deposition in Alzheimer's disease. 177 29
The major phenotypic features of Down syndrome have been correlated with partial trisomies of
chromosome 21
, allowing us to define the candidate gene region to a 4-Mb segment on the 21q22.2 band. We present here a high-resolution physical map with megabase-sized cosmid/
PAC
contigs. This ordered clone library has provided unique material for the integration of a variety of mappable objects, including exons, cDNAs, restriction sites, etc. Furthermore, our results have exemplified a strategy for the completion of the
chromosome 21
map to sequencing.
...
PMID:An integrated map with cosmid/PAC contigs of a 4-Mb Down syndrome critical region. 883 1
We have isolated, mapped and sequenced the 5' promoter region of the human SH3BGR (SH3-Binding Glutamine Rich) gene located in the Down syndrome region-2, between markers D21S55 and MX1 of human
chromosome 21
. This region has been postulated as the minimal region for congenital heart disease and 6 facial and dermatoglyphic features present in Down syndrome. The SH3BGR gene is expressed in fetal and adult heart and in skeletal muscle and therefore it is a candidate gene for the congenital heart defect and muscle hypotonia. The 5' region of the gene has been positioned in a 115 kb
PAC
/cosmid contig with full EcoRI/SmaI restriction map covering cosmid pockets 122-123 as well as cosmid pocket 124 located between markers D21S268 and D21S220. Sequencing of the SH3BGR promoter region has allowed the identification of several potential regulatory elements of this candidate gene for the congenital heart disease and other potential DS features. Several of the elements identified are also present in other muscle-expressed genes.
...
PMID:High-resolution physical map and identification of potentially regulatory sequences of the human SH3BGR located in the Down syndrome chromosomal region. 942 70
Exon trapping was performed from a partial cosmid,
PAC
, and P1 clone contig from human
chromosome 21
between MX1 and 21qter to identify genes that may be involved in the pathogenesis of Down syndrome or several of the genetic diseases that map to chromosome 21q22.3. One 19-bp exon showed identity to three ESTs. The complete sequence of the EST clones, RT-PCR, and cDNA library screening were used to determine the full-length cDNA sequence of 2.2 kb with an open reading frame of 256-amino-acids. The putative 256-amino-acid peptide has homology with a hypothetical Caehorhabditis elegans protein of unknown function. Northern blot analysis of this gene, termed C21orf2 (chromosome 21 open reading frame 2), revealed two ubiquitously expressed mRNAs of 2.2 and 1.2 kb produced by use of alternative polyadenylation sites. Hybridization of the EST clones to a cosmid contig in chromosome 21q22.3 mapped C21orf2 just distal to PFKL, a critical mapping region for several genetic diseases. Comparison to publicly available genomic sequence, and additional data, revealed that the gene is split into seven exons over 10.5 kb, further refining the mapping position to only 1.2 kb distal to PFKL with the direction of transcription toward the centromere. The 5'UTR is contiguous with D21S400, and intron 2 contains a 52-bp VNTR polymorphism. Given its mapping position, C21orf2 is a candidate for involvement in disorders including autoimmune polyglandular disease type I (also called autoimmune polyendocrinopathy candidiasis ectodermal dystrophy or APECED) and the autosomal nonsyndromic deafness loci, DFNB8 and DFNB10. Mutation analysis using sequencing of RT-PCR and genomic DNA-derived PCR products, SSCP, and Southern and Northern blot analyses in APECED patients excluded C21orf2 as the gene for APECED.
...
PMID:Characterization of a novel gene, C21orf2, on human chromosome 21q22.3 and its exclusion as the APECED gene by mutation analysis. 946 97
The identification and mapping of genes within the Down syndrome region is an important step toward a complete understanding of the pathogenesis of this disorder. The objective of the present work is to identify and map genes within the Down syndrome region-2. Chromosome 21 cosmid clones corresponding to "cosmid pockets" 121-124 have been first used as a starting material for generation of a single high resolution integrated cosmid/
PAC
contig with full EcoRI/SmaI restriction map. The integrated contig has been further anchored to genetic and physical maps through the positioning of 6 markers in the following order: ACTL5-D21S3-684G2T7-D21S71-D21S343-D21S 268. The entire contig covers 342 kb of the Down syndrome region-2 of
chromosome 21
. Subsequently, we have isolated, identified, and mapped four novel cDNAs which we have named N143, N144, CHD/333, and 90/3H1 and a potentially transcribed genomic sequence (E05133T7). Additionally, we have accurately located a previously described gene, the WRB gene, between the markers ACTL5-D21S268 within this Down Syndrome Region-2.
...
PMID:High resolution physical mapping and identification of transcribed sequences in the Down syndrome region-2. 948 Aug 50
Phenotypic and molecular analyses of patients with partial
chromosome 21
monosomy enabled us to define a region, spanning 2.4 Mb between D21S190 and D21S226, associated with arthrogryposis, mental retardation, hypertonia, and several facial anomalies. The markers of the region were used to screen a total human
PAC
library (Ioannou, RZPD). We isolated 57 PACs, which formed primary contigs. EST clusters (UNIGENE collection) located in a 6-Mb interval, between D21S260 and D21S263, were mapped in individual bacterial clones. We mapped the WI-17843 cluster to the
PAC
clone J12100, which contains the two anchor markers LB10T and LA329. The open reading frame extends over 960 bp, with three putative start codons. The 1695-bp cDNA containing a polyadenylation signal should correspond to the full-length cDNA. From the genomic sequence, we deduced that the gene contained five exons and that there was a putative promoter sequence upstream from exon 1. In silico screening of DNA databases revealed similarity with a murine EST. The corresponding cDNA (1757 bp) sequence was very similar (>85%) to the human cDNA and had an open reading frame of 876 nucleotides. Somatic hybrid mapping localized the cDNA to mouse chromosome 16. EST analyses and RT-PCR indicated that the third exon in the human gene (exon 2 in the mouse) undergoes alternative splicing. Northern blot hybridization showed that the gene was ubiquitously expressed in humans and mice. The longest mouse clone was used to generate riboprobes, which were hybridized to murine embryos at stages E-9.5, E-10.5, E-12.5, E-13.5, and E-14.5-15, to study the pattern of expression during development. Ubiquitous labeling was observed, with strong signals restricted to limited areas of the telencephalon, the mesencephalon, and the interrhombomeric regions in the central nervous system, and other regions of the body such as the limb buds, branchial arches, and somites.
...
PMID:Characterization of a novel gene, C21orf6, mapping to a critical region of chromosome 21q22.1 involved in the monosomy 21 phenotype and of its murine ortholog, orf5. 1072 27
Fluorescence in situ hybridization (FISH) studies were performed in three cases of acute lymphoblastic leukemia (ALL) with marker chromosomes to analyze the contribution of
chromosome 21
in these markers. FISH with a
chromosome 21
painting probe confirmed that
chromosome 21
was involved in all three cases. FISH with YAC probes showed that the number of extra copies varied according to their location on
chromosome 21
. Attention was focused on the AML1 gene, which was present as five copies in most of the cells exhibiting the marker chromosomes. As controls, 11 cases of childhood ALL were studied with
PAC
probes covering AML1. The results agreed with the banded karyotypes in 10 patients. FISH uncovered a clone with four copies of AML1 which were only observed by FISH analysis of interphase nuclei in one patient. No point mutation was detected in exons 3-5, encoding the runt domain of AML1, in the three cases, suggesting an oncogenic role of wild-type AML1 amplification.
...
PMID:Chromosome 21 abnormalities with AML1 amplification in acute lymphoblastic leukemia. 1157 64
We describe a novel chromosomal aberration acquired in blast crisis (BC) in a patient affected by Philadelphia-positive chronic myeloid leukemia (CML). Conventional cytogenetic studies at onset showed a classic t(9;22)(q34;q11.2) in all bone marrow cells, confirmed by fluorescence in situ hybridization and reverse transcription-polymerase chain reaction (b3a2) analysis. In BC, the malignant clone developed a new additional cytogenetic abnormality consisting of a deletion of
chromosome 21
. To our knowledge, this is the first case of del(21) reported in literature associated with BC CML. The use of an appropriate set of BAC/
PAC
clones restricted the breakpoint to an interval of approximately 100 kb. Sequence analysis did not reveal any known gene in this interval. Oncosuppressor genes distal to the breakpoint could be hypothesized to be involved in the progression of disease toward BC. Identification of new chromosome abnormalities in CML may allow further understanding of specific molecular events leading to disease evolution.
...
PMID:Molecular cytogenetic characterization of a novel additional chromosomal aberration in blast crisis of a Ph-positive chronic myeloid leukemia. 1203 21
Trisomy 21 (Ts21) is the most common live-born human aneuploidy and results in a constellation of features known as Down syndrome (DS). Ts21 is a frequent cause of congenital heart defects and the leading genetic cause of mental retardation. Although overexpression of a gene(s) or gene cluster on human
chromosome 21
(Chr 21) or the genome imbalance by Ts21 has been suggested to play a key role in bringing about the diverse DS phenotypes, little is known about the molecular mechanisms underlying the various phenotypes associated with DS. Four approaches have been used to model DS to investigate the gene dosage effects of an extra copy of Chr 21 on various phenotypes; 1) Transgenic mice overexpressing a single gene from Chr 21, 2) YAC/BAC/
PAC
transgenic mice containing a single gene or genes on Chr 21, 3) Mice with intact/partial trisomy 16, a region with homology to human Chr 21 and 4) Human Chr 21 transchromosomal (Tc) mice. Here we review our new model system for the study of DS using the Tc technology, including the biological effects of an additional Chr 21 in vivo and in vitro.
...
PMID:A new mouse model for Down syndrome. 1506 35
The 26S proteasome is a multisubunit protease responsible for regulated proteolysis in eukaryotic cells. It comprises one catalytic 20S proteasome and two axially positioned 19S regulatory complexes. The 20S proteasome is composed of 28 subunits arranged in a cylindrical particle as four heteroheptameric rings, alpha1-7beta1-7beta1-7alpha1-7 (refs 4, 5), but the mechanism responsible for the assembly of such a complex structure remains elusive. Here we report two chaperones, designated
proteasome assembling chaperone-1
(
PAC1
) and PAC2, that are involved in the maturation of mammalian 20S proteasomes.
PAC1
and PAC2 associate as heterodimers with proteasome precursors and are degraded after formation of the 20S proteasome is completed. Overexpression of
PAC1
or PAC2 accelerates the formation of precursor proteasomes, whereas knockdown by short interfering RNA impairs it, resulting in poor maturation of 20S proteasomes. Furthermore, the
PAC
complex provides a scaffold for alpha-ring formation and keeps the alpha-rings competent for the subsequent formation of half-proteasomes. Thus, our results identify a mechanism for the correct assembly of 20S proteasomes.
...
PMID:A heterodimeric complex that promotes the assembly of mammalian 20S proteasomes. 1625 69
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