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O'Connor, R E and Romanov, M N and Kiazim, L G and Barrett, P M and Farre Belmonte, M and Damas, J and Ferguson-Smith, M and Valenzuela, N and Larkin, D M and Griffin, D K (2018) Reconstruction of the diapsid ancestral genome permits chromosome evolution tracing in avian and non-avian dinosaurs. Nature Communications, 9 (1). p. 1883.
Romanov, M N and Farré, M and Lithgow, P E and O'Connor, R and Fowler, K E and Skinner, B M and Larkin, D M and Griffin, D K (2015) AVIAN ANCESTRAL KARYOTYPE RECONSTRUCTION AND DIFFERENTIAL RATES OF INTER-AND INTRA-CHROMOSOMAL CHANGE IN DIFFERENT LINEAGES. Chromosome Research, 23 (2). p. 414.
Griffin, D K and Farré, M and Lithgow, P and O'Connor, R and Fowler, K E and Romanov, M N and Larkin, D M (2015) AVIAN CHROMONOMICS GOES FUNCTIONAL. Chromosome Research, 23 (2). p. 367.
O'Connor, R E and Romanov, M N and Farré, M and Larkin, D M and Griffin, D K (2015) RECONSTRUCTION OF THE PUTATIVE SAURIAN KARYOTYPE AND THE HYPOTHETICAL CHROMOSOME REARRANGEMENTS THAT OCCURRED ALONG THE DINOSUAR LINEAGE. Chromosome Research, 23 (2). pp. 379-380.
Romanov, M N and Farré, M and Lithgow, P E and Fowler, K E and Skinner, B M and O'Connor, R and Fonseka, G and Backstrom, N and Matsuda, Y and Nishida, C and Houde, P and Jarvis, E D and Ellegren, H and Burt, D W and Larkin, D M and Griffin, D K (2014) Reconstruction of gross avian genome structure, organization and evolution suggests that the chicken lineage most closely resembles the dinosaur avian ancestor. BMC Genomics, 15.