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Joanna Kołsut, Paulina Borówka, Błażej Marciniak, Ewelina Wójcik, Arkadiusz Wojtasik, Dominik Strapagiel and Jarosław Dastych

-associated genes in avian pathogenic Escherichia coli by multiplex polymerase chain reaction. Avian Dis 2005, 49, 269–273. 5. Ge X.Z., Jiang J., Pan Z., Hu L., Wang S., Wang H., Fan H.: Comparative genomic analysis shows that avian pathogenic Escherichia coli isolate IMT5155 (O2:K1:H5; ST complex 95, ST140) shares close relationship with ST95 APEC O1: K1 and human ExPEC O18:K1 strains. PloS One 2014, 9, e112048. 6. Giufré M., Accogli M., Graziani C., Busani L., Cerquetti M.: Whole-genome sequences of multidrug-resistant Escherichia coli strains sharing the same

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M. Raj Ahuja and David B. Neale

References ADAMS, M. C., S. E. CELNIKER and R. A. HOLT et al. (2000): The genome sequence of Drosophila melanogaster. Science 287: 2185-2195. AHUJA, M. R. (2001): Recent advances in molecular genetics of forest trees. Euphytica 121: 173-195. AHUJA, M. R. (2005): Polyploidy in gymnosperms: Revisited. Silvae Genet. 54: 59-69. AHUJA, M, R., M. E. DEVEY, A. T. GROVER, K. D. JERMSTAD and D. B. NEALE (1994): Mapped DNA probes from loblolly pine can be used for restriction fragment length polymorphism

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Olawe Mashood Aliyu

: targets, trends and tomorrow. Annals of Botany, 107: 467-590. BENNETT, M. D. and I. J. LEITCH (2012): Plant DNA C-values Database. http://data.kew.org/cvalues BENNETT, M. D., I. J. LEITCH, H. J. PRICE and J. S. JOHNSTON (2003): Comparison with Caenorhabditis (~100 Mb) and Drosophila (~175 Mb) using flow cytometry show genome size in Arabidopsis to be ~157 Mb and thus ~25% larger than the Arabidopsis Genome Initiative estimate of ~125 Mb. Annals of Botany, 91: 1-11. BENNETZEN, J. L. and E. A. KELLOGG (1997): Do plants have

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Deepak Ohri

. KNIGHT (2008): Genome size is a strong predictor of cell size and stomatal density in angiosperms New Phytologist 179: 975-986. BEAULIEU, J. M., S. A. SMITH and I. J. LEITCH (2010): On the tempo of genome size evolution in angiosperms. J. Bot. doi: 10.1155/2010/989152. BECK, S. L., R.W. DUNLOP and A. FOSSEY (2003): Evaluation of induced polyploidy in Acacia mearnsii through stomatal counts and guard cell measurements. South African Journal of Botany 69: 563-567. BEDI, Y. S., S. S. BIR and B. S. GILL (1981): Cytopalynology

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Malte Mader, Marie-Christine Le Paslier, Rémi Bounon, Aurélie Bérard, Patricia Faivre Rampant, Matthias Fladung, Jean-Charles Leplé and Birgit Kersten

-Nuñez F, Soolanayakanahally RY, Stanton B, Guy RD, Mansfield SD, Douglas CJ, Cronk QC (2015) Recent Y chromosome divergence despite ancient origin of dioecy in poplars ( Populus ). Mol Ecol 24 (13):3243-3256. http://dx.doi.org/10.1111/mec.13126 Gurevich A, Saveliev V, Vyahhi N, Tesler G (2013) QUAST: quality assessment tool for genome assemblies. Bioinformatics 29 (8):1072-1107. http://dx.doi.org/10.1093/bioinformatics/btt086 Jansson S, Douglas CJ (2007) Populus : A model system for plant biology. Annu Rev Plant Biol 58:435-458. http://dx.doi.org/10

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Chunxiao Liu, Mingliang Li, Xingwang Yin, Hongliang Zhang, Lirun Xiang, Hongyue Zhai, Congcong Wang, Yunchao Kan, Lunguang Yao, Zhijun Tian and Chaoliang Leng

Introduction Classical swine fever (CSF) is a highly contagious, lethal, and widespread swine disease caused by CSF virus (CSFV) and is classified by the Office International des Epizooties (OIE) as a notifiable disease ( 5 ). CSFV is an enveloped, single-stranded, positive-sense RNA virus belonging to the Pestivirus genus within the Flaviviridae family. The family also contains bovine viral diarrhoea virus (BVDV) and border disease virus (BDV) ( 9 , 19 ). The CSFV genome is approximately 12.3 kb and contains a large open reading frame (ORF) encoding a

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X. Yu, Y. Guo, X. Zhang, F. Li, Q. Weng, M. Li and S. Gan

, D. R. BOWATTE, T. J. LAWRENCE, E. H. A. RIKKERINK, S. E. GARDINER and S. S. KORBAN (2008): Development of a set of SNP markers present in expressed genes of the apple. Genomics 92: 353-358. CHO, R. J., M. MINDRINOS, D. R. RICHARDS, R. J. SAPOLSKY, M. ANDERSON, E. DRENKARD, J. DEWDNEY, N. FEDERSPIEL, A. THEOLOGIS, W. H. YANG, E. HUBBELL, M. AU, E. Y. CHUNG, D. LASHKARI, B. Lemieux, C. DEAN, R. J. LIPSHUTZ, F. M. AUSUBEL, R. W. DAVIS and P. J. OEFNER (1999): Genome-wide mapping with biallelic markers in Arabidopsis thaliana. Nat Genet 23: 203

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Miodrag Gužvić

-28. 12. Somerville LL, Wang K. The ultrasensitive silver »protein« stain also detects nanograms of nucleic acids. Biochem Biophys Res Commun 1981; 102: 53-8. 13. Bassam BJ, Caetano-Anolles G, Gresshoff PM. Fast and sensitive silver staining of DNA in polyacrylamide gels. Anal Biochem 1991; 196: 80-3. 14. Anderson S, Bankier AT, Barrell BG, de Bruijn MH, Coulson AR, Drouin J, et al. Sequence and organization of the human mitochondrial genome. Nature 1981; 290: 457-65. 15. Fleischmann RD, Adams MD, White O, Clayton RA

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Katarzyna Rafinska, Krzysztof Zienkiewicz and Elzbieta Bednarska

to pollen tube growth. Plant Cell 2002; 14: 945-962. [18] CHEVALIER F, MARTIN O, ROFIDAL V, DEVAUCHELLE AD, BARTEAU S, SOMMERER N, ROSSIGNOL M. Proteomic investigation of natural variation between Arabidopsis ecotypes. Proteomics 2004; 4: 1372-1381. [19] DA COSTA-NUNES JA, GROSSNIKLAUS U. Unveiling the gene-expression profile of pollen. Genome Biol 2003; 5: 205. [20] DAI S, CHEN T, CHONG K, XUE Y, LIU S, WANG T. Proteomics identification of differentially expressed proteins associated with pollen germination and tube

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Krystyna Rybka

References [1] ARSENIUK E, KRZYMUSKI J, MARTYNIAK J, OLEKSIAK T. Bobik- odmiany rejestrowane. [IN] KRZYMUSKI J [ed.] Historia hodowli i nasiennictwa na ziemiach polskich w XX wieku. Poznań, IHAR 2003: 323-324. [2] ASSAAD F. Generation of Arabidopsis transposon lines. Genome Biology 2000; 1, reports018; doi:010.1186/gb-2000-1181-1181-reports1018. [3] CHOPRA VL. Mutagenesis: Investigating the process and processing the outcome for crop improvement. Curent Science 2005; 89: 353-360. [4] CLOUGH SJ