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. Origins of mechanical ventilation. Negative-pressure ventilators (
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1. Interesting to compare the viewpoints and biases of medicine/endocrinology articles, and the surgery articlesInteresting to compare the viewpoints and biases of medicine/endocrinology articles, and the surgery articles
2. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
3. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
4. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
5. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
6. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
7. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
8. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
9. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
10. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
11. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
12. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
13. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
14. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
15. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
16. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
17. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
18. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
19. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
20. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
21. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
22. Disorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsDisorders characterized by systemic effects of M protein, and direct effects of bone marrow infiltration
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors
23. This concept is hugely important in cancer in that methylation silencing genes is equivalent to a mutation
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressorsThis concept is hugely important in cancer in that methylation silencing genes is equivalent to a mutation
Common examples of methylation-induced silencing:
Imprinted genes (Prader-Willi, Angelmann Syndromes)
Inactivated 2nd X chromosome in females
DNA methylation results in histone deacetylation, compacted chromatin, and repression of gene activity
Methylation can have a profound effect in tumorigenesis by silencing tumor suppressors