References
- Beatty A. V. A method for growing and for making permanent slides of pollen tubes. Stain Techn 1937; 12: 13–14
- Brewbaker J. L., Kwack B. H. The essential role of calcium ion in pollen germination and pollen tube growth. Am. J. Botany 1963; 50: 859–65
- Conger A. D. Culture of pollen tubes for chromosomal analysis at the pollen tube division. Stain Techn 1953; 28: 289–93
- Conger A. D., Fairchild L. M. A quick freeze method for making smear slides permanent. Stain Techn 1953; 28: 281–3
- Dickson D. B. A photomicrographic study of lily pollen germination. HortSci 1966; 1: 20
- Dyer A. F. Pollen tube mitosis in culture; osmotic control and acenaphthene treatment. Stain Techn 1966; 41: 277–80
- Eigsti O. J. The effects of colchicine upon the division of the generative cell in Polygonatum, Tradescantia, and Lilium. Am. J. Botany 1940; 27: 512–24
- Johansen D. A. Plant Microtechnique. McGraw-Hill, New York 1940
- Jona R. Handling germinated pollen on Millipore membrane during the Feulgen and autoradiographic procedures. Stain Techn 1967; 42: 113–17
- LaCour L., Fabergé A. C. The use of cellophane in pollen tube technic. Stain Techn 1943; 18: 196
- Ma T. H. Thin-layer lactose agar for pollen-tube culture of Tradescantia to enhance planar distribution of chromosomes. Stain Techn 1967; 42: 285–91
- Newcomer E. H. A procedure for growing, staining, and making permanent slides of pollen tubes. Stain Techn 1938; 13: 89–91
- Swanson C. P. The use of acenaphthene in the pollen tube technic. Stain Techn 1940; 15: 49–52