Embryogenesis can be initiated directly from microspores or pollen grains.
This process is known as androgenesis and is dependent on elicitation of a
stress response in microspores and pollen grains. The cell response to stre
ss includes the synthesis of small molecular weight heat shock protein prot
eins (smHSPs), the predominant heat shock protein family in plants, smHSPs
are synthesized in all microspores and pollen grains subjected to stress, w
hether or not they are potentially androgenic. smHSPs serve as a marker ind
icating that tells have responded to a stress stimulus. Apart from the need
of the stress response, induction of androgenesis is also developmentally
regulated. Thus, microspores and pollen grains that are predominantly at th
e late uninucleate to early bicellular stage of development, around the fir
st pollen mitosis, can be induced to undergo androgenesis, Younger or older
cells are unlikely to be induced to undergo this process. For example, onc
e pollen maturation gene products begin to accumulate, bicellular pollen gr
ains become fully committed to the pollen maturation process, Even under st
ress, such cells cannot be induced to undergo androgenesis, In early bicell
ular pollen, androgenesis is initiated from the vegetative cell (VC). In co
ntrast to the situation during pollen maturation, the VC, when stressed, co
ntinues to synthesize DNA. This is one of the prerequisites for pollen-deri
ved embryogenesis. The generative cell does not contribute to this process.
Reorganization of the cytoskeleton and its polar axis can be observed duri
ng androgenesis induction. The first division is usually symmetrical. Based
on the time difference between the removal of stress, the first cellular d
ivision and the synthesis of the cell wall, the first microspore or pollen
grain cell division in Brassica napus can already be termed androgenesis-re
lated.