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And bound proteins prepared for SDS-PAGE. Following electrophoresis, proteins were transferred onto nitrocellulose and incubated with rabbit anti-LSR sera. There were subsequent serial washings, addition of protein A-horseradish peroxidase conjugate, and then development by ECL.Mouse LethalityHomozygous CD44 knockout and wild-type control mice (C57BL/6J parental strain; ,20 g males) were purchased from Jackson Laboratories [60]. Two separate experiments were done using an intraperitoneal injection of each mouse with sterile PBS containing Ia (0.5 mg) and Ib (0.75 mg). Mice were monitored for morbidity and mortality every 4 h post injection, up to 48 h.Author ContributionsConceived and designed the experiments: DJW GR RJC NS MRP BGS HB. Performed the experiments: DJW GR LS RJC SP MG NS MRP BGS HB. Analyzed the data: DJW GR PH JB TDV RJC TDW GTVN MRP BGS HB. Contributed reagents/materials/analysis tools: DJW GR PH JB TDV RJC TDW GTVN MRP BGS HB. Wrote the paper: DJW GR JB RJC MRP BGS HB.
Genomic instability is a hallmark of cancer [1]. The major form of genomic instability is chromosomal instability, which is characterized by continuous generation of new structural and numerical chromosome aberrations [2,3]. Amongst various forms of chromosome aberrations, pericentromeric or centromeric translocations, deletions and iso-chromosomes have been frequently observed in human cancers of various origins such as head and neck [4?], breast [7,8], lung [9], bladder [7], liver [10], colon [11], ovary [12], pancreas [7], prostate [7,13], and uterine cervix [7]. This AN 3199 highlights an important general role of pericentromeric instability in cancer development. Centromeric or pericentromeric instability may contribute to cancer development by at least two routes. Firstly, chromosome aberrations occurring at pericentromeric regions usually result in 113-79-1 web whole-arm chromosome imbalances, leading to large scale alterations in gene dosage. Secondly, the heterochromatin in centromeric or pericentromeric regions encompasses multiple forms of chromatin structure that can lead to gene silencing or deregulation [14,15]. Pericentromeric or centromeric instability has been proposed to be one of the basic forms of chromosome instability [16]. So far, the mechanisms ofpericentromeric instability in cancer development are poorly understood. Cancer development is associated with replication stress [17]. Replication stress is defined as either inefficient DNA replication, or hyper-DNA replication caused by the activation of origins at rates of more than once per S phase due to the expression of oncogenes or, more generally, the activation of growth signaling pathways [18]. Replication stress is known to cause genomic instability particularly at chromosome loci that are intrinsically difficult to replicate because of the complexity of secondary structures or difficulty in unwinding during DNA replication [3,18,19]. The term “chromosomal fragile sites” is designated to describe the recurrent loci 1379592 that preferentially exhibit chromatid gaps and breaks on metaphase chromosomes under partial inhibition of DNA synthesis [20]. The list of such loci is growing and now includes classical “chromosomal fragile sites” [20], telomeres [21], and repetitive sequences [22]. Human centromeres consist largely of repetitive short sequences (a-satellite DNA sequences) that are tightly packed into centromeric heterochromatin. The condensed structure of heterochromatin has been envisaged to prese.And bound proteins prepared for SDS-PAGE. Following electrophoresis, proteins were transferred onto nitrocellulose and incubated with rabbit anti-LSR sera. There were subsequent serial washings, addition of protein A-horseradish peroxidase conjugate, and then development by ECL.Mouse LethalityHomozygous CD44 knockout and wild-type control mice (C57BL/6J parental strain; ,20 g males) were purchased from Jackson Laboratories [60]. Two separate experiments were done using an intraperitoneal injection of each mouse with sterile PBS containing Ia (0.5 mg) and Ib (0.75 mg). Mice were monitored for morbidity and mortality every 4 h post injection, up to 48 h.Author ContributionsConceived and designed the experiments: DJW GR RJC NS MRP BGS HB. Performed the experiments: DJW GR LS RJC SP MG NS MRP BGS HB. Analyzed the data: DJW GR PH JB TDV RJC TDW GTVN MRP BGS HB. Contributed reagents/materials/analysis tools: DJW GR PH JB TDV RJC TDW GTVN MRP BGS HB. Wrote the paper: DJW GR JB RJC MRP BGS HB.
Genomic instability is a hallmark of cancer [1]. The major form of genomic instability is chromosomal instability, which is characterized by continuous generation of new structural and numerical chromosome aberrations [2,3]. Amongst various forms of chromosome aberrations, pericentromeric or centromeric translocations, deletions and iso-chromosomes have been frequently observed in human cancers of various origins such as head and neck [4?], breast [7,8], lung [9], bladder [7], liver [10], colon [11], ovary [12], pancreas [7], prostate [7,13], and uterine cervix [7]. This highlights an important general role of pericentromeric instability in cancer development. Centromeric or pericentromeric instability may contribute to cancer development by at least two routes. Firstly, chromosome aberrations occurring at pericentromeric regions usually result in whole-arm chromosome imbalances, leading to large scale alterations in gene dosage. Secondly, the heterochromatin in centromeric or pericentromeric regions encompasses multiple forms of chromatin structure that can lead to gene silencing or deregulation [14,15]. Pericentromeric or centromeric instability has been proposed to be one of the basic forms of chromosome instability [16]. So far, the mechanisms ofpericentromeric instability in cancer development are poorly understood. Cancer development is associated with replication stress [17]. Replication stress is defined as either inefficient DNA replication, or hyper-DNA replication caused by the activation of origins at rates of more than once per S phase due to the expression of oncogenes or, more generally, the activation of growth signaling pathways [18]. Replication stress is known to cause genomic instability particularly at chromosome loci that are intrinsically difficult to replicate because of the complexity of secondary structures or difficulty in unwinding during DNA replication [3,18,19]. The term “chromosomal fragile sites” is designated to describe the recurrent loci 1379592 that preferentially exhibit chromatid gaps and breaks on metaphase chromosomes under partial inhibition of DNA synthesis [20]. The list of such loci is growing and now includes classical “chromosomal fragile sites” [20], telomeres [21], and repetitive sequences [22]. Human centromeres consist largely of repetitive short sequences (a-satellite DNA sequences) that are tightly packed into centromeric heterochromatin. The condensed structure of heterochromatin has been envisaged to prese.

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