136 



HISTOLOGY OF MEDICINAL PLANTS 



may be either circular or angled in outline, a given form being 

 constant to the plant in which it occurs. The pits vary from 

 oval to circular. Pitted vessels with bordered pores occur in 

 belladonna and aconite stems. 



Vessels and tracheids lose their living-cell contents when 

 fully developed. In the vessels the cell contents disappear at 

 the period of dissolution of the cell walk 



The walls of vessels and tracheids are composed of lignin, 

 a substance which prevents the collapsing of the walls when 

 the surrounding cells press upon them, and which also prevents 

 the tearing apart of the wall when the vessel is filled with ascend- 

 ing liquids under great pressure. Lignin thus enables the 

 vessel to resist successively compression and tearing forces. 



Tracheids are formed from superimposed cells with oblique 

 perforated end walls. The side walls of tracheids are thickened 

 in a manner similar to those of vessels. The tracheids in golden 

 seal are of a bright-yellow color, and groups of these short 

 tracheids scattered throughout the field form the most char- 

 acteristic part of the powdered drug. In ipecac root the tracheids 

 are of a porcelain- white, translucent appearance, and they are 

 much longer than are the tracheids of golden seal. 



The cellulose walls of parenchyma cells are stained blue 

 with hematoxylin and by chlorzinciodide. Cellulose is com- 

 pletely soluble in a fresh copper ammonia solution. 



SIEVE TUBES 



Sieve tubes are downward-conducting cells. They conduct 

 downward proteid food material. This fact is easily demon- 

 strated by adding iodine to a section containing sieve tubes, in 

 which case the sieve tubes are turned yellow. 



Developing sieve tubes have all the parts common to a living 

 cell; but when fully mature, however, the nucleus becomes 

 disorganized, but a layer of protoplasm continues to line the 

 cell wall. 



Sieve tubes (Plate 46, Fig. 1) are composed of a great number 

 of superimposed cells with perforated end walls and with non- 

 porous cellulose side walls. The end walls of two adjoining 

 cells are greatly thickened and the pores pass through both 



