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Page 39
Saponin belongs to a class of substances called glucosides. Under the
action of dilute acids, it is split up into two substances, glucose
and sopogenin. The chemical nature of this substance is not thoroughly
understood. The commercial[43] product is probably a mixture of
several substances.
This complexity of chemical composition of saponin is admirably
adapted for the nutrition of the plant, and it is associated with the
corresponding complexity of the morphological elements of the plant's
organs. According to M. Perrey,[44] it seems that the power of a plant
to direct the distribution of its carbon, hydrogen, and oxygen to form
complex glucosides is indicative of its higher functions and
developments.
The solvent action of saponin on resins has been already discussed.
Saponin likewise acts as a solvent upon barium[45] sulphate and
calcium[46] oxalate, and as a solvent of insoluble or slightly soluble
salts would assist the plant in obtaining food, otherwise difficult of
access.
The botanical classifications based upon morphology are so frequently
Saponin is found in endogens and exogens. The line dividing these two
groups is not always clearly defined. Statements pointing to this are
found in the works of Haeckel, Bentham, and others.
Smilax belongs to a transition class, partaking somewhat of the nature
of endogen and of exogen. It is worthy of note that this intermediate
group of the sarsaparillas should contain saponin.
It is a significant fact that all the groups above named containing
saponin belong to Heckel's middle division.
It may be suggested that saponin is thus a constructive element in
developing the plant from the multiplicity of floral elements to the
cephalization of those organs.
It has been observed that the composite occurs where the materials for
growth are supplied in greatest abundance, and the more simple forms
arise where sources of nutrition are remote. We may gather from this
fact that the simpler organs of plants low in the evolutionary scale
contain simpler non-nitrogenous chemical compounds for their
nutrition.
The presence of saponin seems essential to the life of the plant where
it is found, and it is an indispensable principle in the progression
of certain lines of plants, passing from their lower to their higher
stages.
Saponin is invariably absent where the floral elements are simple; it
is invariably absent where the floral elements are condensed to their
greatest extent. Its position is plainly that of a factor in the great
middle realm of vegetable life, where the elements of the individual
are striving to condense, and thus increase their physiological action
and the economy of parts.
It may be suggested as a line of research to study what are the
conditions which control the synthesis and gradual formation of
saponin in plants. The simpler compounds of which this complex
substance is built up, if located as compounds of lower plants, would
indicate the lines of progression from the lower to the saponin
groups.
In my paper[47] read in Buffalo at the last meeting of the American
Association for the Advancement of Science, various suggestions were
offered why chemical compounds should be used as a means of botanical
classification.
The botanical classifications based upon morphology are so frequently
unsatisfactory, that efforts in some directions have been made to
introduce other methods.[48]
There has been comparatively little study of the chemical principles
of plants from a purely botanical view. It promises to become a new
field of research.
The leguminos� are conspicuous as furnishing us with important dyes,
e.g., indigo, logwood, catechin. The former is obtained principally
from different species of the genus _Indigofera_, and logwood from the
_H�matoxylon_ and _Saraca indica_.
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