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Imprinting Bibliography

1
ALLEMAN, M. and J. DOCTOR, 2000 Genomic imprinting in plants: observations and evolutionary implications.
Plant Molecular Biology 43: 147-161.

2
BARLOW, D. P., R. STOGER, B. G. HERRMANN, K. SAITO and N. SCHWEIFER, 1991 The mouse insulin-like growth-factor type-2 receptor is imprinted and closely linked to the TME locus.
Nature 349: 84-87.

3
CHAKRBORTY, R., 1989 Can molecular imprinting explain heterozygote deficiency and hybrid vigor?
Genetics 122: 713-717.

4
DECHIARA, T. M., E. J. ROBERTSON and A. EFSTRADIATIS, 1991 Parental imprinting of the mouse insulin-like growth factor II gene.
Cell 64: 849-859.

5
GROSSNIKLAUS, U., J. P. VIELLE-CALZADA, M. A. HOEPPNER and W. B. GAGLIANO, 1998 Maternal control of embryogenesis by MEDEA, a polycomb group gene in Arabidopsis.
Science 280: 446-450.

6
HURST, L. D., 1997 Evolutionary theories of genomic imprinting, pp.
211-237, in Genomic Imprinting, Edited by W. REIK and A. SURANI. Oxford University Press, New York.

7
HURST, L. D., G. T. MCVEAN and T. MOORE, 1996 Imprinted genes have few and small introns.
Nature Genetics 12: 234-237.

8
KENDREW, J., editor, 1994 The Encyclopedia of Molecular Biology.
Blackwell, Oxford.

9
KHURANA, E. and J. S. SINGH, 2000 Influence of seed size on seedling growth of albizia procera under different soil water levels.
Annals of Botany 86: 1185-1192.

10
KINOSHITA, T., R. YADEGARI, J. J. HARADA, R. B. GOLDBERG and R. L. FISHER, 1999 Imprinting of the MEDEA polycomb gene in the araidopsis endosperm.
The Plant Cell 11: 1945-1952.

11
MATSUOKA, S., J. S. THOMPSON, M. C. EDWARDS, J. M. BARLETTA and P. E. A. GRUNDY, 1996 Imprinting of the gene encoding a human cyclin-dependent kinase inhibitor, p57KIP2, on chromosome 11p15.
Proceedings of the National Academy of Sciences USA 93: 3026-3030.

12
MCVEAN, G. T. and L. D. HURST, 1997 Molecular evolution of imprinted genes, no evidence for antagonistic coevolution.
Royal Society of London B Biological Sciences 264: 739-746.

13
MORA-GARCIA, S. and J. GOODRICH, 2000 Genomic imprinting: Seeds of conflict.
Current Biology 10: R71-R74.

14
OBATA, Y., T. KANEKO-ISHINO, T. KOIDE, Y. TAKAI, T. UEDA et al., 1998 Disruption of primary imprinting during oocyte growth leads to the modified expression of imprinted genes during development.
Proceedings of the National Academy of Sciences, USA 125: 1553-1560.

15
REIK, W., A. COLLICK, M. L. NORRIS, S. C. BARTON and M. A. SURANI, 1987 Genomic imprinting determines methylation of parental alleles in transgenic mice.
Nature 328: 248-251.

16
SMITH, N. G. C. and L. D. HURST, 1998 Molecular evolution of an imprinted gene: Repeatability of patterns of evolution within the mammalian insulin-like growth factor Type II receptor.
Genetics 150: 823-833.

17
SOLTER, D., 1988 Differential imprinting and expression of maternal and paternal genomes.
Annual Review of Genetics 22: 127-146.

18
SPENCER, H. G., 1997 Mutation-selection balance under genomic imprinting at an autosomal locus.
Genetics 147: 281-287.

19
SPENCER, H. G., 2000 Population genetics and evolution of genomic imprinting.
Annual Review of Genetics 34: 457-477.

20
SPENCER, H. G., S. G. CLARK and M. W. FELDMAN, 1999 Genetic conflicts and the evolutionary origin of genomic imprinting.
Trends in Ecology and Evolution 14: 197-201.

21
VIELLE-CALZADA, J.-P., C. S. J. THOMAS, A. COLUCCIO, M. A. HOEPPNER and U. GROSSNIKLAUS, 1999 Maintenance of genomic imprinting at the Arabidopsis medea locus requires zygotic DDM1 activity.
Genes and Development 13: 2971-2982.

22
WILLIAMS, E. J. B., C. PAL and L. D. HURST, 2000 The molecular evolution of signal peptides.
Gene 253: 313-322.

23
WILLSON, M. F. and N. BURLEY, 1983 Mate choice in plants.
Princeton University Press, Princeton, NJ.

Diana Wolf
dewolf@alaska.edu
907-474-5538
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