Zygotene
• In cells undergoing meiosis, there are two sets of
chromosomes, i.e., the chromosome number is diploid.
There are two similar chromosomes of each type. Such
chromosomes are called homologous chromosomes.
The homologous chromosomes resemble each other in the
position of their centromeres, position of chromomeres,
shape and size.
Asters
Fig.:Zygotene
• During zygotene (Gk. zygon-adjoining), the first essential
phenomenon of meiosis occurs. The two homologous
chromosomes get attached to each other laterally due to the
development of nucleoprotein synaptonemal complex
between them. The process of attachment of the homologous
chromosomes is known as synapsis.
• Depending upon the place of origin of pairing, synapsis
is procentric (starting from centromeres and proceeding
towards ends), proterminal (starting from ends and
proceeding towards centromeres) and intermediate (at
various places in between centromeres and ends).
Synaptonemal/Synaptinemal complex (Moses, 1956)
• Completion of the synaptonemal complex occurs during
zygotene and becomes more conspicuous at pachytene.
During diplotene, the synaptonemal complex disintegrates
and usually disappears.
• In a synaptonemal complex, nucleoprotein core has
a tripartite structure, one central and two lateral
longitudinal elements.
• Central element lies between the two homologous
chromosomes. each lateral element occurs in between two
chromatids of a chromosome.
Chromatid
Recombination
nodule
Lateral element
Central element
Fig.:Recombination nodule and synaptonemal comp .lex
• On account of synapsis, chromosomes form pairs or
bivalents. The number of bivalents is half the number of
the total chromosomes.
• Synaptonemal complex stabilises the pairing of
the homologues to facilitate recombination. The
recombination nodule (protein molecules) in the lateral
arms of synaptonemal complex is probably related to
crossing over.
Pachytene
• Soon after completion of synapsis, the cell enters pachytene
stage, the longest phase of prophase - I.
Synapsis of
homologous
chromosomes
Crossing over
Fig.:Pachytene
• This stage is characterised by the appearance of recombination
nodules, the sites at which crossing over occurs between
non-sister chromatids of the homologous chromosomes
(bivalent/dyad). each bivalent or chromosome pair is made
up of actually four chromatids i.e., two of each chromosome.
The two chromatids belonging to the same chromosome
are called sister chromatids and chromatids belonging
to from different chromosomes are termed as non-sister
chromatids.
Crossing over
• Process of exchange of genetic material or chromatid
segments between non-sister chromatids of homologous
chromosomes is known as crossing over. It is an enzyme
mediated process.
• It occurs during pachytene after synapsis between
homologous chromosomes.
• The probability that crossing-over will occur between two
loci increases with increasing distance between the two loci
(the location of a gene on a chromosome is called a locus)
on the chromosome.
Mechanism of crossing-over
• The mechanism of crossing over process involves a complex
series of events in which DNa segments are exchanged
between non-sister chromatids. Within the synaptonemal
complex, recombination is thought to be carried out
during pachytene by very large protein assemblies called
recombination nodules.
• recombination nodules (Zickler et al, 1977) contain multienzyme
complex having endonuclease, exonuclease, unwindase,
r-protein etc.