Probe SetGene NameOverall SurvivalRelapse Free survival Basal Like HR (Hazard Ratio)Logrank P valueHR (Hazard Ratio)Logrank P value 223861_atHORMAD1. HORMA.

Slides:



Advertisements
Similar presentations
Input IgG -LSD1 -HDAC1 Untreated SAHA LSD1 HDAC1 Input IgG -LSD1 -HDAC1 IP: (IB) Figure S1 Huang, Yi et al.
Advertisements

At the end of mitosis, each daughter cell has
G2/M: Chromosome condensation SMC family of proteins structural maintenance of chromosomes large coiled coil proteins with ATPase domain interact in complexes.
Bub1 & Colorectal Cancer Julie Clarke March 18, 2003.
Cell Reproduction Chapter 8.
Mitosis n Mitosis is the process by which new cells are generated. n Mitosis produces 2 genetically identical daughter cells.
Cell Division Chapter 9.
Cell Cycle. describes the life cycle of a cell differs fundamentally between prokaryotes & eukaryotes shares four features among all cell types –reproductive.
1 hr hr 8 hr 4-6 hr (M) Spindle-assembly checkpoint - confirms that all the chromosomes are properly attached to the spindles. Resting phase (G0)
Mitosis …. Part II.
PROPHASE METAPHASE ANAPHASE TELOPHASE.  Chromosomes condense and nucleoli disappear  Each duplicated chromosome becomes visible as distinct sister chromatids.
1.6: Cell division.
Aim: How is the cell cycle regulated? Do Now: 1.Worksheet HW: Study for test tomorrow.
Mitosis/Meiosis Diagrams
Mader: Biology 8 th Ed. The Cell Cycle and Cellular Reproduction Chapter 9.
9 Systems of Cell Reproduction Four events occur before and during cell division:  A signal to reproduce must be received.  Replication of DNA and vital.
Gihan E-H Gawish, MSc, PhD Ass. Professor Molecular Genetics and Clinical Biochemistry Molecular Genetics and Clinical BiochemistryKSU 7 th WEEK Cell.
CHAPTER 14 Cellular Reproduction. Introduction Cells reproduce by the process of cell division. Mitosis leads to cells that are genetically identical.
Cell Reproduction. Why Cells Divide Cell death Repair of injury Growth/development Maintains cell size.
Chapter 12 The Cell Cycle. Rudolf Virchow-1855 “Omnis cellula e cellula” Every cell from a cell. In this chapter we will learn how cells reproduce to.
Cell Cycle Sequential series of events from one mitosis to the next Regulated at critical transition points: G1/S and G2/M Regulation is essential for.
Ch 12 Mitosis and The Cell Cycle. The Cell Cycle 1.What is it and why does it exist? -The timing and rate of cell division is crucial to normal growth.
CELL DIVISION. Stages of mitosis (animal cell) prophase: - chromosomes condense (replicated in S phase) - centrosomes separate (duplicated in S phase)
Supplementary Figure SU11274 PHA SGX EGF/bFGF HGF SU11274 PHA SGX523 A. B
Cell Division & Cell Cycle. Reproduction.
Lecture 10: Cell cycle Dr. Mamoun Ahram Faculty of Medicine
Stages of the Cell Cycle
Explain the role of each of the following in mitosis or cytokinesis - Kinetochores - Microtubules - Motor proteins - Actin filaments 2011B AP FRQ.
THE CELL CYCLE: CELL DIVISION BY MITOSIS CH 12 In order for life to continue, cells must reproduce mx8itzrdV7I.
Ch 10 Cellular Reproduction Review. Review Rules Work with teammates to get a cooperative answer within 60 seconds Each correct answer will get a point.
Figure S9. 65 genes classifying early and late acute and convalescent phases on HG-focus platform* Gene symbolGene title p value (Phases) Fold change (early.
The Cell Cycle October 12, Cell Division Functions in Reproduction, Growth, and Repair.
Table S4. List of genes significantly changed in late acute phase vs convalescent phase (HG-focus platform) Probeset IDGene SymbolGene Titlep-valueFold-Change.
Ch. 9 Vocabulary Advanced Biology. Cell Cycle – A cycle in which cells reproduce by growing and dividing Interphase – The stage during which the cell.
+ Cell checkpoints and Cancer. + Introduction Catastrophic genetic damage can occur if cells progress to the next phase of the cell cycle before the previous.
10.3 Regulating the Cell Cycle. 2 Which of the cells depicted in the line graph below are most likely cancerous?
Cell Division. Chromosomes  Are made of DNA  Each chromosome consists of sister chromatids attached at a centromere.
Cell Division J. Carmona Biology. Interphase  The cell is engaged in metabolic activity and performing its prepare for mitosis (the next four phases.
Molecular Biology of the Cell Fifth Edition Molecular Biology of the Cell Fifth Edition The Cell Cycle.
CELL GROWTH, DIVISION, AND REPRODUCTION Miller and Levine Biology.
Supp table 1: Gene sets differentially expressed in Angpt-1 high MDS samples No.Gene Set NameGenes 1KEGG_CELL_CYCLE cyclin-dependent kinase 1, E2F transcription.
Meiosis and Mitosis.
Cell cycle 김다은 성균관대학교 / 약학과
The Cell Cycle Roles of Cell Division The Mitotic Cell Cycle
Chapter 19: The Cell Cycle.
Lecture #5 Date ______ Chapter 12~ The Cell Cycle.
What stage is it?? The sister chromatids are moving apart.
Mitosis and Cell Division
Cell Division Prokaryotic binary fission sporulation Eukaryotic
The Cell Cycle Chapter 12 Unit 4.
Aim: How is the cell cycle regulated?
Cell Cycle Review.
Cell Reproduction Chapter 8.
Schematic of the Cell Cycle of Eukaryotic Cells
Cell Cycle/Cell Division
What does this protein make up or do?
Regulation of Cell Division
Big Idea 3: Living systems store, retrieve, transmit, and respond to information essential to life processes.
Cell Division 1.6.
Chapter 12 The Cell Cycle Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings.
Process of Cell Division
1. Which letter represents mitosis and cytokinesis?
Jeopardy Final Jeopardy Interphase M Stages Structures Regulation
Miller and Levine Biology
MITOSIS Nuclear Cell Division.
Sponge Explain the process of mitosis in your own words.
Cell Division #1 JEOPARDY S2C06 Jeopardy Review.
Cell Division.
Cell Division 2.
Cell-Cycle Control and Cell Death
Presentation transcript:

Probe SetGene NameOverall SurvivalRelapse Free survival Basal Like HR (Hazard Ratio)Logrank P valueHR (Hazard Ratio)Logrank P value _atHORMAD1. HORMA domain containing 1 1,07 (0,5 - 2,28)0,87 0,92 (0,65 − 1,29)0, _s_atMAD2L1. MAD2 mitotic arrest deficient-like 1 (yeast) 0,77 (0,44 - 1,35)0,361,27 (0,98 − 1,65)0, _atKNTC2. Kinetochore associated 2 0,58 (0,33 - 1,03)0,0611,27 (0,98 − 1,65)0, _s_atTPX2. Microtubule-associated protein homolog (Xenopus laevis) 0,52 (0,29 - 0,92)0,024 0,89 (0,69 − 1,16)0, _s_atANLN. Anillin, actin binding protein (scraps homolog, Drosophila) 0,91 (0,43. 1,94)0,811,41 (1 − 1,97)0, _atANXA1. Annexin A1 2,21 (0,99 - 4,92)0,0472 (1,41 - 2,83)6,40E _s_atASPM. Asp (abnormal spindle)-like, microcephaly associated (Drosophila) 0,59 (0,33 - 1,04)0,0651,26 (0,97 − 1,63)0, _x_at BIRC5. Baculoviral IAP repeat-containing 5 (survivin) 0,6 (0,34 - 1,05)0,07 0,83 (0,64 − 1,08)0, _s_atCDC20. Cell division cycle 20 homolog (S. cerevisiae) 0,61 (0,35 - 1,06)0,0771,01 (0,78 − 1,31)0, _atCDCA3. Cell division cycle associated 3 0,78 (0,37 - 1,67)0,520,92 (0,65 − 1,29)0, _s_atCENPA. Centromere protein A, 17kDa 0,45 (0,25 - 0,81)6,20E-031,07 (0,82 − 1,39)0, _s_atCentromere protein F, 350/400ka (mitosinCENPF. ) 0,63 (0,36 - 1,11)0,111,21 (0,93 − 1,57)0, _atCEP55. Chromosome 10 open reading frame 3 0,59 (0,33 - 1,05)0,0711 (0,77 − 1,3) _atCCNA2. Cyclin A2 0,76 (0,44 - 1,33)0,340,91 (0,7 − 1,18)0, _s_atCCNB1. Cyclin B1 0,65 (0,37 - 1,15)0,141,37 (1,05 − 1,77)0, _atCCNE1. Cyclin E1 0,79 (0,46 - 1,38)0,410,88 (0,68 − 1,14)0, _atCCNE2 Cyclin E2 0,52 (0,29 - 0,94)0,0271,19 (0,92 − 1,55)0, _atDLGAP5. Discs, large homolog 7 (Drosophila) 0,74 (0,42 - 1,31)0,31,22 (0,94 − 1,59)0, _s_atDUSP1. Dual specificity phosphatase 1 0,86 (0,49 - 1,5)0,591,14 (0,88 − 1,49)0, _atDST. Dystonin 1,93 (1,09 - 3,4)0,0221,04 (0,8 - 1,35)0, _atFAM83D. Chromosome 20 open reading frame 129 0,98 (0,46 - 2,1)0,961 (0,72 − 1,41)0, _x_atFOXM1. Forkhead box M1 0,49 (0,27 - 0,87)0,0140,81 (0,63 − 1,06)0, _atINHBA. Inhibin, beta A (activin A, activin AB alpha polypeptide) 1,3 (0,61 - 2,79)0,491,28 (0,91 - 1,79)0, _x_atIL8. Interleukin 8 1,79 (1,02 - 3,14)0,0411,54 (1,18 − 2,01)1,20E _atNUSAP1.Nucleolar and spindle associated protein 1 0,63 (0,36 - 1,11)0,11,21 (0,93 − 1,56)0, _x_atPTTG1. Pituitary tumor-transforming 1 0,89 (0,51 - 1,55)0,681,39 (1,07 − 1,81)0, _s_atPRC1. Protein regulator of cytokinesis 1 0,77 (0,44 - 1,35)0,361,01 (0,78 − 1,31)0, _x_atSTMN1. Stathmin 1/oncoprotein 18 1,1 (0,63 - 1,92)0,740,86 (0,66 - 1,12)0, _s_atSMC4. Structural maintenance of chromosomes 4-like 1 (yeast) 0,58 (0,33 - 1,03)0,0610,96 (0,74 − 1,24)0, _atUBE2C. Ubiquitin-conjugating enzyme E2C 0,72 (0,41 - 1,25)0,740,92 (0,71 − 1,19)0, _atUHRF1. Ubiquitin-like, containing PHD and RING finger domains, 1 0,58 (0,27 - 1,27)0,171,16 (0,83 − 1,63)0,38 Supplementary Table 2

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com. Inc. All rights reserved.