Your search keyword '"Castle, John"' showing total 11 results

1. DNA copy number, including telomeres and mitochondria, assayed using next-generation sequencing

Author

Jackson Stuart, Misura Kira, Chen Ronghua, Xie Tao, Bouzek Heather, Biery Matthew, Castle John C, Armour Christopher D, Johnson Jason M, Rohl Carol A, and Raymond Christopher K

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background DNA copy number variations occur within populations and aberrations can cause disease. We sought to develop an improved lab-automatable, cost-efficient, accurate platform to profile DNA copy number. Results We developed a sequencing-based assay of nuclear, mitochondrial, and telomeric DNA copy number that draws on the unbiased nature of next-generation sequencing and incorporates techniques developed for RNA expression profiling. To demonstrate this platform, we assayed UMC-11 cells using 5 million 33 nt reads and found tremendous copy number variation, including regions of single and homogeneous deletions and amplifications to 29 copies; 5 times more mitochondria and 4 times less telomeric sequence than a pool of non-diseased, blood-derived DNA; and that UMC-11 was derived from a male individual. Conclusion The described assay outputs absolute copy number, outputs an error estimate (p-value), and is more accurate than array-based platforms at high copy number. The platform enables profiling of mitochondrial levels and telomeric length. The assay is lab-automatable and has a genomic resolution and cost that are tunable based on the number of sequence reads.

Published

2010

2. Definition, conservation and epigenetics of housekeeping and tissue-enriched genes

Author

Johnson Jason M, Kulkarni Amit V, Castle John C, Rohl Carol A, She Xinwei, and Chen Ronghua

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Housekeeping genes (HKG) are constitutively expressed in all tissues while tissue-enriched genes (TEG) are expressed at a much higher level in a single tissue type than in others. HKGs serve as valuable experimental controls in gene and protein expression experiments, while TEGs tend to represent distinct physiological processes and are frequently candidates for biomarkers or drug targets. The genomic features of these two groups of genes expressed in opposing patterns may shed light on the mechanisms by which cells maintain basic and tissue-specific functions. Results Here, we generate gene expression profiles of 42 normal human tissues on custom high-density microarrays to systematically identify 1,522 HKGs and 975 TEGs and compile a small subset of 20 housekeeping genes which are highly expressed in all tissues with lower variance than many commonly used HKGs. Cross-species comparison shows that both the functions and expression patterns of HKGs are conserved. TEGs are enriched with respect to both segmental duplication and copy number variation, while no such enrichment is observed for HKGs, suggesting the high expression of HKGs are not due to high copy numbers. Analysis of genomic and epigenetic features of HKGs and TEGs reveals that the high expression of HKGs across different tissues is associated with decreased nucleosome occupancy at the transcription start site as indicated by enhanced DNase hypersensitivity. Additionally, we systematically and quantitatively demonstrated that the CpG islands' enrichment in HKGs transcription start sites (TSS) and their depletion in TEGs TSS. Histone methylation patterns differ significantly between HKGs and TEGs, suggesting that methylation contributes to the differential expression patterns as well. Conclusion We have compiled a set of high quality HKGs that should provide higher and more consistent expression when used as references in laboratory experiments than currently used HKGs. The comparison of genomic features between HKGs and TEGs shows that HKGs are more conserved than TEGs in terms of functions, expression pattern and polymorphisms. In addition, our results identify chromatin structure and epigenetic features of HKGs and TEGs that are likely to play an important role in regulating their strikingly different expression patterns.

Published

2009

3. Comparative expression pathway analysis of human and canine mammary tumors

Author

Marconato Laura, Zappulli Valentina, Mesiti Giuseppe, Viti Valentina, Palombo Fabio, Castle John, Kulkarni Amit, Loboda Andrey, Watters James, Aurisicchio Luigi, Uva Paolo, Abramo Francesca, Ciliberto Gennaro, Lahm Armin, La Monica Nicola, and de Rinaldis Emanuele

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Spontaneous tumors in dog have been demonstrated to share many features with their human counterparts, including relevant molecular targets, histological appearance, genetics, biological behavior and response to conventional treatments. Mammary tumors in dog therefore provide an attractive alternative to more classical mouse models, such as transgenics or xenografts, where the tumour is artificially induced. To assess the extent to which dog tumors represent clinically significant human phenotypes, we performed the first genome-wide comparative analysis of transcriptional changes occurring in mammary tumors of the two species, with particular focus on the molecular pathways involved. Results We analyzed human and dog gene expression data derived from both tumor and normal mammary samples. By analyzing the expression levels of about ten thousand dog/human orthologous genes we observed a significant overlap of genes deregulated in the mammary tumor samples, as compared to their normal counterparts. Pathway analysis of gene expression data revealed a great degree of similarity in the perturbation of many cancer-related pathways, including the 'PI3K/AKT', 'KRAS', 'PTEN', 'WNT-beta catenin' and 'MAPK cascade'. Moreover, we show that the transcriptional relationships between different gene signatures observed in human breast cancer are largely maintained in the canine model, suggesting a close interspecies similarity in the network of cancer signalling circuitries. Conclusion Our data confirm and further strengthen the value of the canine mammary cancer model and open up new perspectives for the evaluation of novel cancer therapeutics and the development of prognostic and diagnostic biomarkers to be used in clinical studies.

Published

2009

4. Exon and junction microarrays detect widespread mouse strain- and sex-bias expression differences

Author

Schadt Eric E, Russell Archie, Kulkarni Amit V, Shah Jyoti K, Edwards Stephen, GuhaThakurta Debraj, Modrek Barmak, Su Wan-Lin, Johnson Jason M, and Castle John C

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Studies have shown that genetic and sex differences strongly influence gene expression in mice. Given the diversity and complexity of transcripts produced by alternative splicing, we sought to use microarrays to establish the extent of variation found in mouse strains and genders. Here, we surveyed the effect of strain and sex on liver gene and exon expression using male and female mice from three different inbred strains. Results 71 liver RNA samples from three mouse strains – DBA/2J, C57BL/6J and C3H/HeJ – were profiled using a custom-designed microarray monitoring exon and exon-junction expression of 1,020 genes representing 9,406 exons. Gene expression was calculated via two different methods, using the 3'-most exon probe ("3' gene expression profiling") and using all probes associated with the gene ("whole-transcript gene expression profiling"), while exon expression was determined using exon probes and flanking junction probes that spanned across the neighboring exons ("exon expression profiling"). Widespread strain and sex influences were detected using a two-way Analysis of Variance (ANOVA) regardless of the profiling method used. However, over 90% of the genes identified in 3' gene expression profiling or whole transcript profiling were identified in exon profiling, along with 75% and 38% more genes, respectively, showing evidence of differential isoform expression. Overall, 55% and 32% of genes, respectively, exhibited strain- and sex-bias differential gene or exon expression. Conclusion Exon expression profiling identifies significantly more variation than both 3' gene expression profiling and whole-transcript gene expression profiling. A large percentage of genes that are not differentially expressed at the gene level demonstrate exon expression variation suggesting an influence of strain and sex on alternative splicing and a need to profile expression changes at sub-gene resolution.

Published

2008

5. Immunomic, genomic and transcriptomic characterization of CT26 colorectal carcinoma

Author

Castle, John C, primary, Loewer, Martin, additional, Boegel, Sebastian, additional, de Graaf, Jos, additional, Bender, Christian, additional, Tadmor, Arbel D, additional, Boisguerin, Valesca, additional, Bukur, Thomas, additional, Sorn, Patrick, additional, Paret, Claudia, additional, Diken, Mustafa, additional, Kreiter, Sebastian, additional, Türeci, Özlem, additional, and Sahin, Ugur, additional

Published

2014

6. DNA copy number, including telomeres and mitochondria, assayed using next-generation sequencing

Author

Castle, John C, primary, Biery, Matthew, additional, Bouzek, Heather, additional, Xie, Tao, additional, Chen, Ronghua, additional, Misura, Kira, additional, Jackson, Stuart, additional, Armour, Christopher D, additional, Johnson, Jason M, additional, Rohl, Carol A, additional, and Raymond, Christopher K, additional

Published

2010

7. Comparative expression pathway analysis of human and canine mammary tumors

Author

Uva, Paolo, primary, Aurisicchio, Luigi, additional, Watters, James, additional, Loboda, Andrey, additional, Kulkarni, Amit, additional, Castle, John, additional, Palombo, Fabio, additional, Viti, Valentina, additional, Mesiti, Giuseppe, additional, Zappulli, Valentina, additional, Marconato, Laura, additional, Abramo, Francesca, additional, Ciliberto, Gennaro, additional, Lahm, Armin, additional, La Monica, Nicola, additional, and de Rinaldis, Emanuele, additional

Published

2009

8. Definition, conservation and epigenetics of housekeeping and tissue-enriched genes

Author

She, Xinwei, primary, Rohl, Carol A, additional, Castle, John C, additional, Kulkarni, Amit V, additional, Johnson, Jason M, additional, and Chen, Ronghua, additional

Published

2009

9. Exon and junction microarrays detect widespread mouse strain- and sex-bias expression differences

Author

Su, Wan-Lin, primary, Modrek, Barmak, additional, GuhaThakurta, Debraj, additional, Edwards, Stephen, additional, Shah, Jyoti K, additional, Kulkarni, Amit V, additional, Russell, Archie, additional, Schadt, Eric E, additional, Johnson, Jason M, additional, and Castle, John C, additional

Published

2008

10. Definition, conservation and epigenetics of housekeeping andtissue-enriched genes.

Author

Xinwei She, Rohl, Carol A., Castle, John C., Kulkarni, Amit V., Johnson, Jason M., and Ronghua Chen

Subjects

GENES, TISSUES, GENE expression, BIOMARKERS, GENETIC polymorphisms

Abstract

Background: Housekeeping genes (HKG) are constitutively expressed in all tissues while tissue-enriched genes (TEG) are expressed at a much higher level in a single tissue type than in others. HKGs serve as valuable experimental controls in gene and protein expression experiments, while TEGs tend to represent distinct physiological processes and are frequently candidates for biomarkers or drug targets. The genomic features of these two groups of genes expressed in opposing patterns may shed light on the mechanisms by which cells maintain basic and tissue-specific functions. Results: Here, we generate gene expression profiles of 42 normal human tissues on custom high-density microarrays to systematically identify 1,522 HKGs and 975 TEGs and compile a small subset of 20 housekeeping genes which are highly expressed in all tissues with lower variance than many commonly used HKGs. Cross-species comparison shows that both the functions and expression patterns of HKGs are conserved. TEGs are enriched with respect to both segmental duplication and copy number variation, while no such enrichment is observed for HKGs, suggesting the high expression of HKGs are not due to high copy numbers. Analysis of genomic and epigenetic features of HKGs and TEGs reveals that the high expression of HKGs across different tissues is associated with decreased nucleosome occupancy at the transcription start site as indicated by enhanced DNase hypersensitivity. Additionally, we systematically and quantitatively demonstrated that the CpG islands' enrichment in HKGs transcription start sites (TSS) and their depletion in TEGs TSS. Histone methylation patterns differ significantly between HKGs and TEGs, suggesting that methylation contributes to the differential expression patterns as well. Conclusion: We have compiled a set of high quality HKGs that should provide higher and more consistent expression when used as references in laboratory experiments than currently used HKGs. The comparison of genomic features between HKGs and TEGs shows that HKGs are more conserved than TEGs in terms of functions, expression pattern and polymorphisms. In addition, our results identify chromatin structure and epigenetic features of HKGs and TEGs that are likely to play an important role in regulating their strikingly different expression patterns. [ABSTRACT FROM AUTHOR]

Published

2009

11. Exon and junction microarrays detect widespread mouse strain- and sex-bias expression differences.

Author

Wan-Lin Su, Modrek, Barmak, GuhaThakurta, Debraj, Edwards, Stephen, Shah, Jyoti K., Kulkarni, Amit V., Russell, Archie, Schadt, Eric E., Johnson, Jason M., and Castle, John C.

Subjects

GENE expression, EXONS (Genetics), CELL junctions, SEX differences (Biology), LABORATORY mice, DNA microarrays

Abstract

Background: Studies have shown that genetic and sex differences strongly influence gene expression in mice. Given the diversity and complexity of transcripts produced by alternative splicing, we sought to use microarrays to establish the extent of variation found in mouse strains and genders. Here, we surveyed the effect of strain and sex on liver gene and exon expression using male and female mice from three different inbred strains. Results: 71 liver RNA samples from three mouse strains - DBA/2J, C57BL/6J and C3H/HeJ - were profiled using a custom-designed microarray monitoring exon and exon-junction expression of 1,020 genes representing 9,406 exons. Gene expression was calculated via two different methods, using the 3'-most exon probe ("3' gene expression profiling") and using all probes associated with the gene ("whole-transcript gene expression profiling"), while exon expression was determined using exon probes and flanking junction probes that spanned across the neighboring exons ("exon expression profiling"). Widespread strain and sex influences were detected using a two-way Analysis of Variance (ANOVA) regardless of the profiling method used. However, over 90% of the genes identified in 3' gene expression profiling or whole transcript profiling were identified in exon profiling, along with 75% and 38% more genes, respectively, showing evidence of differential isoform expression. Overall, 55% and 32% of genes, respectively, exhibited strain- and sex-bias differential gene or exon expression. Conclusion: Exon expression profiling identifies significantly more variation than both 3' gene expression profiling and whole-transcript gene expression profiling. A large percentage of genes that are not differentially expressed at the gene level demonstrate exon expression variation suggesting an influence of strain and sex on alternative splicing and a need to profile expression changes at sub-gene resolution. [ABSTRACT FROM AUTHOR]

Published

2008