1.        Loss of p53 stops checkpoint control at broken chromosomes

2.        Different tumors have different alterations Fig 23-41

3.        CANCER AQUIRED CAPABILITIES

4.        Figure 21.8  Phenotypes of Mice with Mutations Along the Pigment Synthesis Pathway can lead to melanoma as well

5.        All factors together in cancer production Fig 23-31

6.        Knockout Fig 8-70

7.        Knockout Fig 8-70

8.        ACUTE INFLAMATORY RESPONSE

9.        SEQUENCE OF EVENTS

10.     PAF AND T-CELL ADHESION

11.     Figure 42.17  Atherosclerosis: normal artery and artery with plaque

12.     MAST CELL SYNTHESIS AND SECRETION

13.     INFLAMATION MEDIATORS

14.     RAS GENES IN CANCER

15.     CONNECTION OF INFLAMATION TO CANCER

16.     BREAST CANCER CELLS MAKE CSF-1, ATTRACTING MACROPHAGES

17.     MACROPHAGES BOOST TUMOR GROWTH

18.     Wnt signaling path in cancer and stem cells

19.     Beta-catenin suppression

20.     Tcf/Lef transcription factors

21.     Stemcell to differentiated cell types

22.     Ephrin gradients set boundaries, controled by Wnt signals.    APC is an oncogene, mutations can be inherited

23.     Reported Wnt effects

24.     Normal vs deregulated Wnt

25.     Wnt and leukemia-cancers develop in proliferating cells

26.     VIRAL INDUCED CANCERS

27.     DIETARY CANCER PREVENTION

28.     TUMOR INDUCED ANGIOGENESIS

29.     Zinc-finger protein+siRNA works better than each alone

30.     FORMATION OF siRNA

31.     SILENCER shRNA CONSTRUCT for K ion channel gene-TASK

32.     FORMS OF RNA SILENCING

33.     RNA MEDIATION OF HETEROCHROMATIN

34.     8-64

35.     Fig 8-65

36.     8-66