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Plasma cell

Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x

Rough endoplasmic reticulum <p>Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x</p>

Rough endoplasmic reticulum

Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x

Golgi apparatus <p>Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x</p>

Golgi apparatus

Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x

Clockface chromatin <p>Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x</p>

Clockface chromatin

Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x

Nucleolus <p>Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x</p>

Nucleolus

Plasma cells have distinctive features that are clearly seen in this electron micrograph: a prominent Golgi; well developed rough endoplasmic reticulum; and a nucleus with large clumps of heterochromatin at the margin of the nucleus (clock-face nucleus). Compare these features with the high magnification light microscopic inset. Plasma cells are derived from B lymphocytes and produce antibodies. 8,000x