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Cereal Genome Evolution: Grasses, line up and form a circle

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Presentation on theme: "Cereal Genome Evolution: Grasses, line up and form a circle"— Presentation transcript:

1 Cereal Genome Evolution: Grasses, line up and form a circle
G. Moore, K.M. Devos, Z. Wang, M.D. Gale  Current Biology  Volume 5, Issue 7, Pages (July 1995) DOI: /S (95)

2 Figure 1 Comparisons of cereal genome evolution based on rice linkage segments. (a) Rice chromosomes dissected into linkage blocks [3]. (b) Wheat, (c) maize, (d) foxtail millet, (e) sugar cane and (f) sorghum chromosomes represented as ‘rice blocks’ on the basis of homology and/or conservation of gene order. Connecting lines indicate duplicated segments within the maize chromosomes. (g) An ancestral ‘single chromosome’ reconstructed on the basis of these linkage blocks [3]. The designation of the different sorghum linkage groups has varied between laboratories and publications. The data in several publications [8–11] have been assembled in the form presented by Grivet [12,13]. For the purpose of this figure, the sorghum linkage groups have then been assigned (S1–S10) on the basis of their rice segments and the order of rice segments in the ancestral ‘chromosome’. Open boxed linkage groups indicate that the order of segments within each linkage group needs further confirmation. Current Biology 1995 5, DOI: ( /S (95) )

3 Figure 2 Alignment of the genomes of six major grass crop species with 19 rice linkage segments, whose order reflects the circularized ancestral grass genome. The data in Figure 1 have been redrawn as a series of rice linkage segments (defined by radiating lines) formed into chromosomes (broken colour-coded and numbered lines). The thin dashed lines correspond to the duplicated segments. Inversions of sets of sequences within a linkage segment (such as the inversion of segments 3a and 3b in maize chromosome 5) are not shown. Linkage segments forming parts (pt) of Triticeae chromosome 5 are shown as a series of segments connected by coloured lines. The alignment is based on the genetic map of the D genome of wheat. The red line indicates the duplicated segments shown as blocks 11b and 12b. Chromosomes formed by the insertion of one segment into another are shown by black lines with arrows indicating the direction and point of insertion. The points of chromosome breakage involved with insertion events are indicated by black bisected circles. The ‘haploid’ chromosome number of each species is shown in the column marked ‘x’. The haploid DNA content of each species, shown in the column of 1C values, is per 109 bases. Current Biology 1995 5, DOI: ( /S (95) )

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