Abstract:The effects of anther tissues were studied systematically on microspores forming multicellular units and furthermore on pollen callus formation in the anther culture of Hordeum vulgare (cv. Sabarlis). Anther productivity was found to be greatly enhanced by use of medium previously conditioned by anthers. In 15 experiments observed, anthers produced 26 times on average more calli in the conditioned medium than in control, in a few cases, even more than 80 times more calli formed. According to this, the authors supposed that cultured anthers released some components, anther factor (s) (AF), which is important to androgenesis in the culture. To achieve high yields of callus, culture was restricted to anthers which had been subpected to cold pretreatment. The temperature stress could not be replaced by the AF. However, for conditioning medium, anthers at binuclear stage were found to be more effective than the test anthers either with or without the pretreatment. Anthers from other 8 barley varieties were also effective for conditioning, as the difference of anther productivity still existed in the culture with conditioned medium between various genotypes tested. Anther response and callus yield were increased in both the culture of anthers at mid and late-uninuclear stage by use of conditioned medium. AF interacted synergistically with m-inositol. Cytological observation showed that AF increased apparently the formation of MPGs, while m-inositol mainly stimulated callus formation from MPGs. To some extent, the effect of exogenous hormone(s) could be replaced by AF. The anther response and pollen callus yield could be much enhanced by increasing anther inoculation density, which also raised the AF level in the culture. Thus, by use of the temperature stress prior to anther culture and culture of test anthers in conditioned medium with m-inositol, or at higher inoculation density, a very high production of pollen callus could be obtained in barley anther culture. For meeting the more specialized requirements of less responsive species or genopypes, the principles given here may be provide some basic information.