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Caryologia
International Journal of Cytology, Cytosystematics and Cytogenetics
Volume 70, 2017 - Issue 4
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Articles

Cytogenetic analysis of five recommended and released Philippine varieties of sugarcane (Saccharum officinarum L.) and their parentals

Joan Christine O. AdajarGenetics and Molecular Biology Division, Institute of Biological Sciences, College of Arts and Sciences, University of the Philippines, Los Baños, PhilippinesCorrespondence[email protected]
,
Merlyn S. MendioroGenetics and Molecular Biology Division, Institute of Biological Sciences, College of Arts and Sciences, University of the Philippines, Los Baños, Philippines
,
Luisa N. VillamaelGenetics and Molecular Biology Division, Institute of Biological Sciences, College of Arts and Sciences, University of the Philippines, Los Baños, Philippines
,
Liwayway M. EnglePHILSURIN Sugarcane Breeding Program, Victorias Experiment Station, Victoria City, Philippines
,
Ma. Carmina C. ManuelGenetics and Molecular Biology Division, Institute of Biological Sciences, College of Arts and Sciences, University of the Philippines, Los Baños, Philippines
&
Jose E. HernandezInstitute of Crop Science, College of Agriculture and Food Science, University of the Philippines, Los Baños, Philippines
Pages 302-323 | Received 06 Sep 2016, Accepted 01 Jul 2017, Published online: 31 Aug 2017

References

  • Abou-Salama AM. 1990. Sugarcane pollen viability and seed setting as affected by daylength decline rates and relative humidity [dissertation]. [LSU historical dissertation and theses]. Louisiana: Louisiana State University.
  • Adejuwon SA. 1988. An assessment of the patterns of rainfall fluctuations between 1922 and 1985 in Nigeria [ dissertation]. Ile-Ife: Obafemi Awolowo University.
  • Alwala S, Kimbeng CA. 2010. Molecular genetic linkage mapping in Saccharum: strategies, resources and achievements. In: Henry RJ, Kole C, editors. Genetics, genomics and breeding of sugarcane ( 2010, August 15). USA: CRC Press. p. 69–96, 300 p.
  • Andreuzza S., Siddiqi L. 2008. Spindle positioning, meiotic nonreduction, and polyploidy in plants. PLOS Genet 4 [Internet]. Available from: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2582683/
  • Berding N, Hurney AP. 2005. Flowering and lodging, physiological-based traits affecting cane and sugar cane yield: what do we know of their control mechanisms and how do we manage them? Field Crops Res. 92(2/3):261–275.
  • Bremer G. 1924. The cytology of sugarcane. A cytological investigation of some cultivated kinds and their parents. Genetica (The Hague). 6:497–525.
  • Clements HF, Awada M. 1967. Experiments on the artificial induction of flowering in sugarcane. Proc Int Soc Sugarcane Technol. 12:795–812.
  • D’hont A, Grivet L, Feldmann P, Rao S, Berding N, Glaszmann JC. 1996. Characterisation of the double genome structure of modern sugarcane cultivars (Saccharum spp.) by molecular cytogenetics. Mol Gen Genet. 250(4):405–413.
  • Divinagracia NS, Ramirez DA. 1976. The morphology and cytology of Saccharum officinarum indigenous to the Philippines. Philipp J Crop Sci. 1(1):1–25.
  • Dutt NL, Rao KS. 1933. Observations on the cytology of sugarcane. Indian J Agric Sci. 3:37–56.
  • Elliott FC. 1958. Plant breeding and cytogenetics. New York (NY): McGraw-Hill Boo Company Inc; 395 p.
  • Engle LM, Escote LJ, Dela Cruz FS, Sedano MR. 1980. The cytology and morphology of hybrids derived from Hawaiian commercial variety of sugarcane and Saccharum spontaneum from Iloilo. Philipp J Crop Sci. 5(3):95–99.
  • Engle LM, Fabillar LL, Lumbres GV, Sedano MR. 1979. The cytogenetics of hybrids between a cultivated sugarcane and Talahib. Philipp J Crop Sci. 4(2/3):63–71.
  • Engle LM, Luzaran RT, Villariez HP, Untal CH. 2012 Aug. The genealogy of PHILSURIN recommended and released sugarcane varieties. Paper Presented at: 2012 PHILSUTECH annual convention. Waterfront Hotel; Cebu City, Philippines.
  • Engle LM, Sedano MR, Dela Cruz FS. 1980. The cytology and morphology of hybrids derived from open-pollinated Saccahrum officinarum and S. spontaneum F1 hybrids. Philipp J Crop Sci. 5(4):130–133.
  • Escote LJ. 1978. Cytological and morphological study of Saccharum spontaneum L. and related genera in the Philippines and Saccharum officinarum and Saccharum spontaneum hybrids [ Unpublished MS thesis (Genetics)]. Los Baños: University of the Philippines; p. 154 [in English].
  • Fletcher H, Hickey I, Winter P. 2012. Instant notes in genetics. 3rd ed. New York: Taylor and Francis Group; p. 384.
  • Gernand D, Rutten T, Varshney A, Rubotsova M, Prodanovic S, Brüß C, Kumlehn J, Matzk F, Houben A. 2005. Uniparental chromosomes elimination at mitosis and interphase in wheat and pearl millet crosses involves micronucleus formation, progressive, heterochromatinization, and DNA fragmentation. Plant Cell. 17(9):2431–2438. doi:10.1105/tpc.105.034249.
  • Heinz, DJ. 1991. Sugarcane cytogenetics. In: Tsuchiya T, Gupta PK, editors. Chromosome engineering in plants: genetics, breeding, evolution part B (Vol. 2, Part 2). Amsterdam: Elsevier Science. p. 279–292, 647 p.
  • Huang Y, Wu J, Wang P, Lin Y, Fu C, Deng Z, Wang Q, Li Q, Chen R, Zhang M. 2015. Characterization of chromosome inheritance of the intergeneric BC2 and BC3 progeny between Saccharum spp. and Erianthus arundinaceus. [Internet]. Available from: https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0133722#pone.0133722.ref021
  • Investment Opportunity Sugarcane Plantation. 2011. [Internet]. Available from: https://www.philexport.ph/c/document_library/get_file?uuid=8f3ab5f7-ae8a-48f0-804b-9d2f47419a6b&groupId=127524
  • Jagathesan D, Sreenivasan TV, Ratnambal MJ. 1970. Chromosome numbers in noble sugarcane. Indian J Heredity. 2:89–96.
  • Kasha KJ, Kao KN. 1970. High frequency of haploid production in barley (Hordeum vulagre L.). Nature. 225:874–875.10.1038/225874a0
  • Kwajaffa AM, Olaoye G. 2014. Flowering behavior, pollen fertility, and relationship of flowering with cane yield and sucrose accumulation among sugarcane germplasm accessions in a savanna ecology in Nigeria. Int J Curr Agric Res 3(12):104–108 [Internet]. Available from: https://wrpjournals.com/sites/default/files/issues-pdf/1067.pdf
  • Laurie DA, Bennett MD. 1989. The timing of chromosome elimination in hexaploid wheat x maize crosses. Genome. 32:953–961.10.1139/g89-537
  • Melloni MNG, Melloni MLG, Rossini L, Creste S, Xavier MA, Landell MGA, Heslop-Harrson JS, Schwarzacher T, Bailey JP. 2014. Sugarcane and characterization of Saccaharum hybrids by molecular cytogenetics with Natalia Melloni. [Internet]. Available from: https://molcyt.org/2014/08/05/sugar-cane-and-characterization-of-saccharum-hybrids-by-molecular-cytogenetics-with-natalia-melloni/
  • Mendes-Bonato AB, Pagliarini MS, Valle CB. 2007. Meiotic arrest compromises pollen fertility in an interspecific hybrid between Bracharia ruziziensis x Bracharia decumbens (Poaceae:paniceae). Braz Arch Boil Technol. 50:831–837 [Internet]. Available from: https://www.scielo.br/scielo.php?script=sci_arttext&pid=S1516-89132007000500011 10.1590/S1516-89132007000500011
  • Olaoye G. 1996. Studies on flowering in sugarcane in savanna ecology in Nigeria. I. Relationship between pollen fertility and seed set. Niger J Genet XI: 60–65.
  • Piperidis G, D’hont A. 2001. Chromosome composition analysis of various Saccharum interspecific hybrids by genomic in situ hybridization GISH. Proc Int Soc Technol. 24:565–566.
  • Piperidis G, Piperidis N, D’hont, A. 2010. Molecular cytogenetic investigation of chromosome composition and transmission in sugarcane. Mol Genet Genomics. 284(1):65–73. doi:10.1007/s00438-010-0546-3
  • Price S. 1960. Cytological studies in Saccahrum and allied genera. VI. Chromosome numbers in S. officinarum and other noble sugarcanes. Hawaii Plant Rec. 56:183–194.
  • Shu QY, Forster BP, Nakagawa H. 2012. Plant mutation breeding and biotechnology. New York (NY): CAB International and FAO; p. 608.10.1079/9781780640853.0000
  • Storme ND, Geelen D. 2011. The Arabidopsis mutant Jason produces unreduced first division restitution male gametes through parallel/fused spindle mechanism in meiosis II. Plant Physiol 155:1403–1415 [Internet]. Available from: https://www.plantphysiol.org/content/155/3/1403.full 10.1104/pp.110.170415
  • Sugar Regulatory Administration. 2012. History. [Internet]. Available from: https://www.sra.gov.ph/about-us/history/
  • Sugarcane Industry Road Map (2011–2016). 2012. [Internet]. Available from: https://www.da.gov.ph/index.php/2012-03-27-12-03-56/2012-04-13-12-40-39
  • Vasek FC. 1962. “Multiple spindle” – a meiotic irregularity in Clarkia exilis. Am J Bot. 49(5):536–539.10.2307/2439426

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