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KRAS G12C oncogene product illustration
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KRAS G12C oncogene product illustration
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KRAS G12C oncogene product illustration
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KRAS G12C oncogene product illustration
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Murine leukaemia virus SEM
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Murine leukaemia virus SEM
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Murine leukaemia virus SEM
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Murine leukaemia virus Coloured scanning electron micrograph (SEM) Murine leukaemia viruses (MLV) (red particles) are gamma retroviruses that cause
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Murine leukaemia virus SEM
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High-security laboratory work A scientist checking a sample in a fume cupboard The scientist is masked and gowned and is wearing surgical gloves T
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Murine leukaemia virus SEM
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Illustration of a fragment of the KRAS G12C mutant oncogene product Activation of KRAS promotes cell growth and proliferation Mutations in KRAS lead
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Raf-MEK-ERK pathway illustration
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Illustration of a cell membrane showing the proteins involved in the Raf-MEK-ERK or MAPKERK pathway The signal cascade begins when epidermal growt
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Prenyl-binding protein PDE6D and inhibitor illustration
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Oncogene test conceptual image
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p53 tumour suppressor protein illustration Also known as TP53 activation of this tumour suppressor induces apoptosis cell cycle arrest or senesce
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Entrectinib cancer drug molecule illustration
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MODEL RELEASED Cancer research Researcher analysing the DNA sequence from an ovarian cancer cell Studying the genetic basis of cancer can lead to t
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Cancer research light micrograph showing the microinjection of a single cell a technique of introducing foreign or increased amounts of DNA into the
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Cancer research
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DNA sequences of p53 tumour suppressor gene
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Gene expression research Light micrograph of a mouse oocyte (egg cell precursor) that is expressing an oncogene (a cancer-causing gene) The techniqu
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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Tyrosine kinase c-Abl
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Tyrosine kinase c-Abl
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Myc and Max proteins complexed with target DNA (deoxyribonucleic acid) Computer model showing human Myc proto-oncogene protein (purple) and Max prote
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Myc and Max proteins complexed with target DNA (deoxyribonucleic acid) Computer model showing human Myc proto-oncogene protein (purple) and Max prote
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BRAF-MEK complex Computer model showing the structure of BRAF (yellow-green magenta) complexed with MEK (blue green) with ACP shown in red Inhibit
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Anti-cancer protein p53 Molecular model of the anti-cancer protein p53 (also known as tumour protein 53 or TP53) This proteins action at the cellu
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BRAF-MEK complex
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GTPase Ras complexed with Raf kinase
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GTPase Ras complexed with Raf kinase
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Tyrosine kinase c-Abl
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Tyrosine kinase c-Abl
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Ras GTP complex Computer model showing the structure of a molecule of a Ras oncogene protein (white) in complex with GTP (guanosine triphosphate sph
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Ras GTP complex Computer model showing the structure of a molecule of a Ras oncogene protein in complex with GTP (guanosine triphosphate spheres) R
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Ras GTP complex Computer model showing the structure of a molecule of a Ras oncogene protein in complex with GTP (guanosine triphosphate spheres) R
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K-Ras benzamidine and GTP complex
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Tumorigenesis Light micrograph showing proliferation in clusters of lung cells from a rat embryo due to an externally-induced mutation of the tumour
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K-Ras benzamidine and GTP complex Computer model showing the structure of a molecule of the K-Ras oncogene protein in complex with benzamidine (centr
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K-Ras benzamidine and GTP complex Computer model showing the structure of a molecule of the K-Ras oncogene protein in complex with benzamidine (centr
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K-Ras benzamidine and GTP complex Computer model showing the structure of a molecule of the K-Ras oncogene protein (orange) in complex with benzamidi
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K-Ras PI3K complex
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K-Ras PI3K complex Computer model showing the structure of a molecule of the K-Ras oncogene protein (white right) in complex with benzamidine (spher
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K-Ras GTP complex Computer model showing the structure of a molecule of the K-Ras oncogene protein in complex with GTP (guanosine triphosphate) Ras
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K-Ras GTP complex Computer model showing the structure of a molecule of the K-Ras oncogene protein in complex with GTP (guanosine triphosphate) Ras
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K-Ras benzamidine and GTP complex
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Oncogenes Computer artwork comparing the DNA (deoxyribonucleic acid coiled strand) of a normal cell (top) with that of a cancer cell (bottom) Here
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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Cancer protein and drug complex Molecular model showing imatinib drug molecules (sticks) bound to and inhibiting the active sites of the Bcr-Abl fusi
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Cancer protein and drug complex Molecular model showing imatinib drug molecules (sticks) bound to and inhibiting the active sites of the Bcr-Abl fusi
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Cancer protein and drug complex Molecular model showing imatinib drug molecules (sticks) bound to and inhibiting the active sites of the Bcr-Abl fusi
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Cancer protein and drug complex Molecular model showing imatinib drug molecules (sticks) bound to and inhibiting the active sites of the Bcr-Abl fusi
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Thrombopoietin hormone molecule Computer model showing the secondary structure of a molecule of the hormone thrombopoietin (TPO) Beta sheets (arrows
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Src protein TEM
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Src protein TEM
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Quizartinib investigational acute myeloid leukaemia (AML) drug chemical structure Stylized skeletal formula (chemical structure) Atoms are shown as
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Crizotinib anti-cancer drug molecule
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Crizotinib anti-cancer drug molecule
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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H-Ras p21 oncogene protein molecular model The Ras proteins are involved in transmitting signals within cells Excessive signalling can lead to cond
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Entrectinib cancer drug molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles hydrogen (hidden) carbon (g
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Entrectinib cancer drug molecule Skeletal formula
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Entrectinib cancer drug molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles hydrogen (hidden) carbon (g
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Entrectinib cancer drug molecule Skeletal formula
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Entrectinib cancer drug molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles hydrogen (hidden) carbon (g
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Entrectinib cancer drug molecule Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles hydrogen (hidden) carbon (g
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Entrectinib cancer drug molecule Skeletal formula
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Entrectinib cancer drug molecule Skeletal formula
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Quizartinib cancer drug molecule (kinase inhibitor) Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles with thick
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Quizartinib cancer drug molecule (kinase inhibitor) Stylized skeletal formula (chemical structure) Atoms are shown as color-coded circles connected
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Quizartinib cancer drug molecule (kinase inhibitor) White skeletal formula on dark teal gradient background with hexagonal pattern
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Quizartinib cancer drug molecule (kinase inhibitor) Blue skeletal formula on white background
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Crizotinib anti-cancer drug molecule Inhibitor of ALK and ROS1 proteins Stylized skeletal formula (chemical structure) Atoms are shown as color-cod
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Crizotinib anti-cancer drug molecule illustration
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Crizotinib anti-cancer drug molecule illustration
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Crizotinib anti-cancer drug molecule illustration
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Human endogenous retrovirus and a cell illustration The human endogenous retrovirus (HERV) and its viral mRNA is at centre (green) along with the ho
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Tumour suppressor p53 degraded by proteasome Computer illustration showing the structure of a molecule of tumour protein p53 (blue) tagged with ubiq
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MDM2 and tumour suppressor p53 illustration Computer illustration showing MDM2 (mouse double minute 2 homolog violet) bound to tumour protein p53 (
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MDM2 and tumour suppressor p53 illustration Computer illustration showing MDM2 (mouse double minute 2 homolog violet) bound to tumour protein p53 (
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MDM2 and tumour suppressor p53 illustration Computer illustration showing MDM2 (mouse double minute 2 homolog violet) bound to tumour protein p53 (
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Tumour suppressor p53 degraded by proteasome Computer illustration showing the structure of a molecule of tumour protein p53 (blue) tagged with ubiq
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DNA binding to anti-cancer protein p53 Molecular model of DNA (pink) binding to the anti-cancer protein p53 (also known as tumour protein 53 or TP53
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DNA binding to anti-cancer protein p53 Molecular model of DNA (pink) binding to the anti-cancer protein p53 (also known as tumour protein 53 or TP53
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MDM2 binding to anti-cancer protein p53 Molecular model of mdm2 proteins (pink) binding to the anti-cancer protein p53 (also known as tumour protein
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Anti-cancer protein p53 Molecular model of the anti-cancer protein p53 (also known as tumour protein 53 or TP53) This proteins action at the cellu
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Burkitts lymphoma light micrograph
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Burkitts lymphoma light micrograph Burkitts lymphoma is a highly aggressive B-cell neoplasm which often involves extranodal sites or presents as a
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Burkitts lymphoma light micrograph Burkitts lymphoma is a highly aggressive B-cell neoplasm which often involves extranodal sites or presents as a
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KRAS G12C oncogene product illustration
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KRAS G12C oncogene product illustration
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KRAS G12C oncogene product illustration
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KRAS G12C oncogene product illustration
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Murine leukaemia virus SEM
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Murine leukaemia virus SEM
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