cell division 34  results

Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Breast cancer cell. Colored scanning electron micrograph (SEM) of a breast cancer cell. The cell shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cell. Colored scanning electron micrograph (SEM) of a breast cancer cell. The cell shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Cell division from the Offset CollectionCell division from the Offset Collection
Two-cell embryo, illustration. Two-cell embryo.Two-cell embryo, illustration. Two-cell embryo.
Two-cell embryo, illustration. Two-cell embryo.Two-cell embryo, illustration. Two-cell embryo.
Cell division from the Offset CollectionCell division from the Offset Collection
Light micrograph of onion (Allium cepa) root tip cells undergoing mitosis (nuclear division)Light micrograph of onion (Allium cepa) root tip cells undergoing mitosis (nuclear division)
Tumour or cancer cells Computer artwork depicting a network of malignant (cancerous) tumour cellsTumour or cancer cells Computer artwork depicting a network of malignant (cancerous) tumour cells
Cancer cell dividing colored scanning electron micrograph (SEM) of a colorectal cancer cell dividingCancer cell dividing colored scanning electron micrograph (SEM) of a colorectal cancer cell dividing
Four-cell embryo, illustration - Offset CollectionFour-cell embryo, illustration - Offset Collection
Breast cancer cell, SEM - OffsetBreast cancer cell, SEM - Offset
Illustration of embryonic cell cleavageIllustration of embryonic cell cleavage
Dividing fibrosarcoma cells, SEM - OffsetDividing fibrosarcoma cells, SEM - Offset
Light micrograph of onion (Allium cepa) root tip cells undergoing mitosis (nuclear division).Light micrograph of onion (Allium cepa) root tip cells undergoing mitosis (nuclear division).
Color scanning electron micrograph of a dividing cervical cancer cellColor scanning electron micrograph of a dividing cervical cancer cell
Color scanning electron micrograph of fibrosarcoma (fibroblastic sarcoma) cells in the late telophase stage of mitosis.Color scanning electron micrograph of fibrosarcoma (fibroblastic sarcoma) cells in the late telophase stage of mitosis.
Colored scanning electron micrograph (SEM) of Schizosaccharomyces pombe yeastColored scanning electron micrograph (SEM) of Schizosaccharomyces pombe yeast
Scanning electron micrograph of Schizosaccharomyces pombe yeastScanning electron micrograph of Schizosaccharomyces pombe yeast
Embryo, conceptual illustration - Offset CollectionEmbryo, conceptual illustration - Offset Collection
Developing frog egg, gastrula section, micrograph.Developing frog egg, gastrula section, micrograph.
Micrograph of a developing frog egg, gastrula section, on black backgroundMicrograph of a developing frog egg, gastrula section, on black background
Close-up of developing frog egg gastrula section, micrographClose-up of developing frog egg gastrula section, micrograph
Developing frog egg, unsegmented egg section, micrographDeveloping frog egg, unsegmented egg section, micrograph
Developing frog egg cleavage section, micrographDeveloping frog egg cleavage section, micrograph
Developing frog egg, early gastrula section, micrographDeveloping frog egg, early gastrula section, micrograph
Micrograph of developing frog egg, early gastrula section, on black backgroundMicrograph of developing frog egg, early gastrula section, on black background
Micrograph of a developing frog egg, blastule sectionMicrograph of a developing frog egg, blastule section
Micrograph of a developing frog egg, cleavage sectionMicrograph of a developing frog egg, cleavage section
Micrograph of a developing frog egg, unsegmented egg sectionMicrograph of a developing frog egg, unsegmented egg section
Developing frog egg cleavage section, micrographDeveloping frog egg cleavage section, micrograph
Developing frog egg blastule section, micrographDeveloping frog egg blastule section, micrograph
Developing frog egg, holoblastic cleavage section, micrograph.Developing frog egg, holoblastic cleavage section, micrograph.
Micrograph of a developing frog eggMicrograph of a developing frog egg

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