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Homeotic mutations We know some misterious mutations, which generate horroristic monsters.

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Presentation on theme: "Homeotic mutations We know some misterious mutations, which generate horroristic monsters."— Presentation transcript:

1 Homeotic mutations We know some misterious mutations, which generate horroristic monsters

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3 The homeosis Mutation, that causes transformation of an area of the body into another area The mutated genes the so-called Homeobox genes, shortly Hox genes

4 Products of Hox genes The Hox genes contain a 180 bp conservated region: the homeobox The homeobox encodes a 60 AA length homeodomain = a DNA-binding helix turn helix motif The homeodomain proteins are transcription factors The Hox genes are selector genes (regulate the expression of other so-called realisator genes) The expression of several Hox genes is region- specific in the embryo

5 The homeotic transformations got known first in Drosophyla The regulation of Hox expression and the role of Hox genes is well known in Drosophyla

6 Hierarchy of genes in Drosophila development Realisator genes Maternal factor Pair rule genes Gap genes Development of the number of segments Development of the features of the segments Selector genes (Hox genes)

7 Hierarchy of genes in Drosophila development bicoid (maternal factor) hunchback (gap gene)giant (gap gene)Krüppel (gap gene)

8 Organization of Drosophila Hox genes Antennapedia complex Bithorax complex HOM-C complex 3’ 5’

9 The pattern of Hox expression labialproboscipedia deformed Sex comb reduced Antennapedia Ultrabithorax Abdominal A Abdominal B 3’ 5’

10 The pattern of Hox expression Colinearity between the order of the Hox genes and the expression pattern along the A/P axis, for example:Colinearity between the order of the Hox genes and the expression pattern along the A/P axis, for example: –in the first position of the HOM-C comlex is the labial, and it has the most anterior expression.

11 The pattern of Hox expression –the first lab is expressed alone –the second pb is expressed with lab, etc. –the last Abd-B is expressed with all the others –there aren’t wings, or legs on the abdomen –WHY?? –The more posterior Hox gene supresses the affect of more anterior –For example: Ubx, AbdA and AbdB supresses the development of the legs

12 Elucidation of Antennapedia phenotype There are legs in the place of antennaeThere are legs in the place of antennae This segment of the head looks like a thoracal segmentThis segment of the head looks like a thoracal segment Normally, the Antp isn’t expressed in the headNormally, the Antp isn’t expressed in the head Gain of function mutation of Antp causes abnormal Antp expression in the headGain of function mutation of Antp causes abnormal Antp expression in the head The more posterior Hox gene dominates above the more anteriorThe more posterior Hox gene dominates above the more anterior Antp transforms the head segment into thoracal segment!!!Antp transforms the head segment into thoracal segment!!!

13 What are the animals? An animal is an organism that displays a particular spatial pattern of gene expression. This pattern is the zootype. Every animal use the same regulation method to the developing of very different structures lb pb Dfd Ubx AbdB eve otd ems Scr

14 Mammalian Hox genes In mice and human 4 Hox clusters have been foundIn mice and human 4 Hox clusters have been found Homology has been found between the Drosophyla and human Hox genesHomology has been found between the Drosophyla and human Hox genes

15 Drosophyla and human Hox genes 4 clusters: Hox A: Chr. 16 Hox B: Chr. 11 Hox B: Chr. 11 Hox C: Chr 15 Hox C: Chr 15 Hox D: Chr. 2 Hox D: Chr. 2 13 paralog groups 38 Hox genes

16 Archetypal organisation of Amphioxus Hox gene cluster Jordi Garcia-Fernandez & Peter W. H. Holland Nature, 1994, vol. 370 The evolution of the Hox clusters

17 The changes in Hox gene number and genomic organization played an important role in metazoan body-plan evolutionThe changes in Hox gene number and genomic organization played an important role in metazoan body-plan evolution Garcia-Fernandez and Holland examined the organisation of Hox genes in cephalochordate Amphioxus (Brachiostomata floridae)Garcia-Fernandez and Holland examined the organisation of Hox genes in cephalochordate Amphioxus (Brachiostomata floridae)

18 The Amphioxus Hox gene cluster The Amphioxus genome has only one Hox clusterThe Amphioxus genome has only one Hox cluster It contains homologues of the mammalian Hox genesIt contains homologues of the mammalian Hox genes

19 Relationship of the Amphioxus and mammalian Hox genes The sequence of homeobox of 10 Amphioxus Hox genes have been analised It has been compared with members of mammalian paralog groups Conservative amino-acid residues have been found

20 Evolution of Hox gene cluster Hypothetical common ancestor Amphioxus

21 Evolution of Hox gene cluster Vertebrata genome contains 4 Hox clusters, Drosophyla genome contains only one In general: we can see one-to-four relationship between invertebrate and vertebrate gene number (for example insulin receptor, notch …) Two genome duplications happened

22 The Cambrian explosion Nearly all the extant phyla of kingdom Animalia emerged within few tens of million yearsNearly all the extant phyla of kingdom Animalia emerged within few tens of million years This evolutionary explosion started about 530 million years agoThis evolutionary explosion started about 530 million years ago The assumed cause of it the genome duplicationThe assumed cause of it the genome duplication

23 The genome duplications

24 Larger Hox gene numberLarger Hox gene number More complicated body pattern

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