07. Кукурудза як модельний організм для фундаментальних і прикладних досліджень у біології рослин

Волкова Н. Е.
Сторінки: 34-40.

Повна стаття: 
Короткий огляд
Мета. Огляд літератури щодо використання кукурудзи як модельної системи для генетичних досліджень. Результати. Наведено історію кукурудзи як модельного організму, починаючи з класичних робіт Г. Менделя, переваги кукурудзи як модельної рослини, інформацію щодо походження, доместикації та поширення кукурудзи з урахуванням сучасних молекулярних та археологічних даних. Показано сучасний стан досліджень з генетики та геноміки кукурудзи. Висновки. Генетичні закономірності, вперше виявлені на кукурудзі, перенесено на інші культури, що сприяло підвищенню загального рівня генетичних досліджень і селекційних розробок для сільськогосподарського виробництва.

Ключові слова: кукурудза, модельний організм, генетика, геноміка.

Бібліографія
  1. Сатарова Т.Н. Кукуруза: биотехнологические и селекционные аспекты гаплоидии [монография]/Т.Н. Сатарова, В.Ю. Черчель, А.В. Черенков. — Днепропетровск: Новая идеология, 2013. — 552 с.
  2. Bai L. Generating novel allelic variation through Activator insertional mutagenesis in maize/L. Bai, M. Singh, L. Pitt//Genetics. — 2007. — V. 175. — P. 981–992.
  3. Beadle G. Genetic and Cytological Studies of Mendelian Asynapsis in Zea mays/G. Beadle//Doctoral Dissertation, Cornell University, NY. — 1930. — 120 p.
  4. Bennetzen J. Comparative sequence analysis of plant nuclear genomes: Microcolinearity and its many exceptions/J. Bennetzen//Plant Cell. — 2000. — V. 12. — P. 1021–1029.
  5. Bennetzen J. National Science Foundation-sponsored workshop report. Maize genome sequencing project/J. Bennetzen, V. Chandler, P. Schnable//Plant Physiol. — 2001. — V. 127. — P. 1572–1578.
  6. Bennetzen J. The genetic colinearity of rice and other cereals on the basis of genomic sequence analysis/J. Bennetzen, J. Ma//Curr. Opin. Plant Biol. — 2003. — V. 6. — P. 128–133.
  7. Bolot S. The «inner circle» of the cereal genomes/S. Bolot, M. Abrouk, U. Masood-Quraishi//Curr. Opin. Plant Biol. — 2009. — V. 12. — P. 119–125.
  8. Bortiri E. Advances in maize genomics: The emergence of positional cloning/E. Bortiri, D. Jackson, S. Hake//Curr. Opin. Plant Biol. — 2006. — V. 9. — P. 164–171.
  9. Brink R. Raramutation: directed genetic change/R. Brink, E. Styles, J. Axtell//Science. — 1968. — V. 159, № 3811. — P. 161–170.
  10. Buckler E. Molecular and functional diversity of maize/E. Buckler, B. Gaut, M. McMullen//Curr. Opin. Plant Biol. — 2006. — V. 9. — P. 172–176.
  11. Chuck G. The maize tasselseed4 microRNA controls sex determination and meristem cell fate by targeting Tasselseed6/indeterminate spikelet1/G. Chuck, R. Meeley, E. Irish//Nat. Genet. — 2007. — V. 39. — P. 1517–1521.
  12. Coe E. The origins of maize genetics/E. Coe//Nat. Rev. Genet. — 2001. — V. 2. — P. 898–905.
  13. Coe E. The properties, origin and mechanism of conversion — type of inharitance at the B locus in maize/E. Coe//Genetics. — 1966. — V. 53, № 6. — P. 1035–1063.
  14. Creighton H. A correlation of cytological and genetical crossing-over in Zea mays/H. Creighton, B. McClintock//PNAS. — 1931. — V. 17, № 8. — P. 492–497.
  15. DeLong A. Sex determination gene Tasselseed2 of maize encodes a short-chain alcohol dehydrogenase required for stage-specific floral organ abortion/A. DeLong, A. Calderon-Urrea, S. Dellaporta//Cell. — 1993. — V. 74. — P. 757–768.
  16. Devos K. Updating the «crop circle»/K. Devos//Curr. Opin. Plant Biol. — 2005. — V. 8. — P. 155–162.
  17. Doebley J. The genetics of maize evolution/J. Doebley//Annu. Rev. Genet. — 2004. — V. 38. — P. 37–59.
  18. Dong Q. ZmDB, an integrated database for maize genome research/Q. Dong, L. Roy, M. Freeling//Nucl. Acids Res. — 2003. — V. 31, № 1. — P. 244–247.
  19. Dooner H. Structure of the Rr tandem duplication in maize/H. Dooner, J. Kermicle//Genetics. — 1971. — V. 67. — P. 427–436.
  20. East E. Inbreeding in corn/E. East//Conn. Agric. Exp. Sta. Rept. — 1907. — P. 419–428.
  21. Emerson R. A fifth pair of factors, Aa, for aleurone color in maize, and its relation to the C and Rr pairs/R. Emerson//Cornell Un. Agric. Exp. Sta. Mem. — 1918. — V. 16, № 2. — P. 225–289.
  22. Emerson R. The inheritance of quantitative characters in maize/R. Emerson, E. East//Bull. Agric. Exp. Sta. NE. — 1913. — V. 2, № 1. — P. 1–120.
  23. Fukunaga K. Genetic diversity and population structure of Teosinte/K. Fukunaga, J. Hill, Y. Vigouroux//Genetics. — 2005. — V. 169. — P. 2241–2254.
  24. Gaut В. Maize as a model for the evolution of plant nuclear genomes/B. Gaut, M. d’Ennequin, A. Peek//PNAS. — 2000. — V. 97, № 13. — P. 7008–7015.
  25. Goff S. A draft sequence of the rice genome (Oryza sativa L. ssp. japonica)/S. Goff, D. Ricke, T. Lan//Science. — 2002. — V. 296. — P. 92–100.
  26. Harjes C. Natural genetic variation in lycopene epsilon cyclase tapped for maize biofortification/C. Harjes, T. Rocheford, L. Bai//Science. — 2008. — V. 319. — P. 330–333.
  27. Jiang J. A molecular view of plant chromosomes/J. Jiang, J. Birchler, W. Parrott//Trends Plant Sci. — 2003. — V. 8. — P. 570–575.
  28. Jones D. Dominance of linked factors as a means of accounting for heterosis/D. Jones//Genetics. — 1917. — V. 2, № 2. — P. 466–479.
  29. Kato A. Chromosome painting using repetitive DNA sequences as probes for somatic chromosome identification in maize/A. Kato, J. Lamb, J. Birchler//PNAS. — 2004. — V. 101. — P. 13554–13559.
  30. Laughnan J. The effect of the sh2 factor on carbohydrate reserves in the mature endosperm of maize/J. Laughnan//Genetics. — 1953. — V. 38. — P. 485–499.
  31. Laughnan J. The placement of genes using waxy-marked reciprocal translocations/J. Laughnan, S. Gabay-Laughnan//The maize handbook (eds. M. Freeling and V. Walbot). — Springer, New York, 1994. — P. 255–257.
  32. Lee M. Expanding the genetic map of maize with the intermated B73. Mo17 (IBM) population/M. Lee, N. Sharopova, W. Beavis//Plant Mol. Biol. — 2002. — V. 48. — P. 453–461.
  33. Matsuoka Y. A single domestication for maize shown by microsatellite genotyping/Y. Matsuoka, Y. Vigouroux, M. Goodman//PNAS. — 2002. — V. 99. — P. 6080–6084.
  34. May B. Maize-targeted mutagenesis: A knockout resource for maize/B. May, H. Liu, E. Volbrecht//PNAS. — 2003. — V. 100. — P. 11541–11546.
  35. McCarty D. Steady-state transposon mutagenesis in inbred maize/D. McCarty, A. Settles, M. Suzuki//Plant J. — 2005. — V. 44. — P. 52–61.
  36. McClintock B. The origin and behavior of mutable loci in maize/B. McClintock//PNAS. — 1950. — V. 36, № 6. — P. 344–355.
  37. Neuffer M. Mutants of maize/M. Neuffer, E. Coe, S. Wessler//Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY. — 1997. — 200 p.
  38. Piperno D. The earliest archaeological maize (Zea mays L.) from highland Mexico: New accelerator mass spectrometry dates and their implications/D. Piperno, K. Flannery//PNAS. — 2001. — V. 98. — P. 2101–2103.
  39. Polacco M. MaizeDB: the maize genome database/M. Polacco, E. Coe//Bioinformatics: Databases and Systems. — Kluwer Academic Publishers, Norwell, MA, 1999. — P. 151–162.
  40. Rabinowicz P. The maize genome as a model for efficient sequence analysis of large plant genomes/P. Rabinowicz, J. Bennetzen//Curr. Opin. Plant Biol. — 2006. — V. 9. — P. 149–156.
  41. Randolf L. Genetic characteristics of the B-chromosomes in maize/L. Randolf//Genetics. — 1941. — V. 26, № 6. — P. 608–631.
  42. Rhoades M. Cytoplasmic inheritance of male sterility in Zea mays/M. Rhoades//PNAS. — 1932. — V. 18, № 7. — P. 481–484.
  43. Rhoades M. The early years of maize genetics/M. Rhoades//Annu. Rev. Genet. — 1984. — V. 18. — P. 1–29.
  44. Roman H. Mitotic nondisisjunction in the case of interchanges involving the B-type chromosome in maize/H. Roman//Genetics. — 1947. — V. 32, № 4. — P. 391–409.
  45. Scanlon M. Genetic analysis of 63 mutations affecting maize kernel development isolated from Mutator stocks/M. Scanlon, P. Stinard, M. James//Genetics. — 1994. — V. 136. — P. 281–294.
  46. Schnable P. The B73 Maize Genome: Complexity, Diversity and Dynamics/P. Schnable, D. Ware, R. Fulton//Science. — 2009. — V. 326. — P. 1112–1115.
  47. Shull G. The composition of a Weld of maize/G. Shull//Am. Breed. Assoc. Rep. — 1908. — V. 4, № 1. — P. 296–301.
  48. Stadler L. Genetic effects of x-rays in maize/L. Stadler//PNAS. — 1928. — V. 14, № 1. — P. 69–75.
  49. Strable J. Maize (Zea mays): A Model Organism for Basic and Applied Research in Plant Biology/J. Strable, M. Scanlon//Cold Spring Harbor Laboratory Press. — 2009. — V. 4, Issue 10. — P. 1–9.
  50. Swigonova Z. Close split of sorghum and maize genome progenitors/Z. Swigonova, J. Lai, J. Ma//Genome Res. — 2004. — V. 14. — P. 1916–1923.
  51. Thornsberry J. Dwarf8 polymorphisms associate with variation in flowering time/J. Thornsberry, M. Goodman, J. Doebley//Nat. Genet. — 2001. — V. 28. — P. 286–289.
  52. Vollbrecht E. Amazing grass: Developmental genetics of maize domestication/E. Vollbrecht, B. Sigmon//Biochem. Soc. Trans. — 2005. — V. 33. — P. 1502–1506.
  53. Wang C. Cytogenetic mapping in maize/C. Wang, C. Chen//Cytogenet. Genome Res. — 2005. — V. 109, № 1–3. — P. 63–69.
  54. Wang C. High-resolution singlecopy gene fluorescence in situ hybridization and its use in the construction of a cytogenetic map of maize chromosome 9/C. Wang, L. Harper, W. Cande//Plant Cell. — 2006. — V. 18. — P. 529–544.
  55. Weil C. Getting to the point—mutations in maize/C. Weil, R. Monde//Crop Sci. — 2007. — V. 47. — P. S60–S67.
  56. Wilson L. Dissection of maize kernel composition and starch production by candidate gene association/L. Wilson, S. Whitt, A. Ibanez//Plant Cell. — 2004. — V. 16. — P. 2719–2733.
  57. Yu J. Genetic association mapping and genome organization of maize/J. Yu, E. Buckler//Curr. Opin. Biotech. — 2006. — V. 17. — P. 155–160.