9 Triplets
Centriole
Centrosphere
Fig.: Centrosome with pair of centrioles (Diplosome)
Centriole
Massule or
pericentriolar
satellite
C-A connective (proteinaceous linker)
Central rod (HUB)
Cart-wheel structure
9 Spokes
Triplet fibril
Fig.: Ultrastructure of centriole
BC
A
X
Y
• Centrioles replicate with the help of massules in S or G 2 phase to coordinate in animal cell division. Before nuclear division,
the two centrosomes separate and move to opposite ends at the place of spindle pole formation.
Functions
• Centrioles help in cell division by forming microtubule-organising centres (MTOCs).
• Out of the two centrioles in a spermatozoan, the distal one forms axial filament or tail.
• Centrioles can be transformed into basal bodies to give rise to cilia and flagella.
• Centrioles are capable of forming new centrioles with the help of massules which function as nucleating centres.
NUCLEUS
• Nucleus was first observed by Leeuwenhoek in RBCs and was first studied by Robert Brown in orchid root cells.
• It is the largest cell organelle having double membrane and carry all the genetic information.
• Commonly cells are uninucleate, Paramecium caudatum is binucleate having (macronucleus for controlling metabolic activities
and micronucleus that contains hereditary information). Cells of bone narrow, striated muscles, several fungi and algae are
multinucleate.
• A typical interphase nucleus is 5-25 μm in diameter and differentiated into nuclear envelope, nucleoplasm, nuclear matrix,
chromatin and nucleolus.
Chromatin
Nucleolus
Nuclear envelope
Ribosomes
Fibrous lamina
Heterochromatin
Nucleoplasm
Fig.: Ultrastructure of interphase nucleus
Nuclear pore
Euchromatin
Endoplasmic
reticulum
Outer nuclear membrane
Inner nuclear membrane
Perinuclear space
Karyosome
(False nucleolus)
Chromocentre