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William A. Paznekas, Michael L. Cunningham, Timothy D. Howard, Bruce R

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Presentation on theme: "William A. Paznekas, Michael L. Cunningham, Timothy D. Howard, Bruce R"— Presentation transcript:

1 Genetic Heterogeneity of Saethre-Chotzen Syndrome, Due to TWIST and FGFR Mutations 
William A. Paznekas, Michael L. Cunningham, Timothy D. Howard, Bruce R. Korf, Mark H. Lipson, Art W. Grix, Murray Feingold, Rosalie Goldberg, Zvi Borochowitz, Kirk Aleck, John Mulliken, Mingfei Yin, Ethylin Wang Jabs  The American Journal of Human Genetics  Volume 62, Issue 6, Pages (June 1998) DOI: /301855 Copyright © 1998 The American Society of Human Genetics Terms and Conditions

2 Figure 1 Photographs of Saethre-Chotzen syndrome patients. Note brachycephaly, facial asymmetry, midface hypoplasia, ptosis, hypertelorism, and/or downward-slanting palpebral fissures. A–E, Individuals with TWIST mutations: FSCSJP101 (A), FSCSJN77 (B), FSCSRM1403 (C), and FSCSMK1401 (D), who has acrobrachycephaly and deformational changes, and FSCSJW1402 (E), relative of a family reported by Jones [1997]). F,FGFR2 mutation found in individual FSCSIN95. The bottom row shows first cousins who have the FGFR3 P250R mutation. G, Saethre-Chotzen syndrome–like phenotype, with ptosis and downward-slanting palpebral fissures. H, Crouzon syndrome–like phenotype, with mild ocular proptosis and prognathism. The American Journal of Human Genetics  , DOI: ( /301855) Copyright © 1998 The American Society of Human Genetics Terms and Conditions

3 Figure 2 Mutations in Saethre-Chotzen syndrome, detected by fluorometric sequencing and either restriction-enzyme digestion or ASO hybridization. The sequence of each mutant allele is shown above the normal allele sequence, and the mutations are indicated by arrows. The family designation is to the left of each sequence and corresponds to that used in table 2. The results of restriction-enzyme digestion or ASO hybridization are shown below the respective sequence; and the patient (P) and control (C) samples are indicated. For ASO hybridization, results from the mutant oligonucleotides are shown above those from the normal oligonucleotides. The molecular-weight marker on agarose gels is PhiX174/HaeIII in the left lane of each gel. A–I, TWIST mutations. J, FGFR2 mutation. A, 309C→G mutation detected by ASO hybridization, from one of the two unrelated patients. B, 346C→T mutation, detected by digestion with restriction enzyme AflIII, which digests the mutant allele into two fragments, of 117 and 395 bp, and which does not digest the normal allele, which is 512 bp. C, 364C→T mutation, detected by digestion with restriction enzyme BfaI, which digests the normal allele into fragments of 42, 88, and 382 bp and which digests the mutant allele into fragments of 42, 88, 139, and 243 bp. The 42-bp fragment is not visible on this gel. D, 384insC mutation, sequenced from a cloned mutant allele and detected by ASO hybridization. E, 395G→C mutation, detected by digestion with restriction enzyme BslI, which digests the mutant allele and creates fragments of 1, 18, 23, 25, 30, 60, 106, 120, and 129 bp. The normal allele is digested into fragments of 1, 18, 23, 25, 30, 48, 58, 60, 120, and 129 bp. Fragments <60 bp were not well visualized on the agarose gel. F, 415C→T mutation, detected by ASO hybridization. G, 421G→T mutation, detected by ASO hybridization. H, 445C→T mutation, detected by ASO hybridization. I, 455C→T mutation, detected by digestion with restriction enzyme MscI, which digests the mutant allele to create fragments of 113, 120, and 279 bp. The 113- and 120-bp fragments are not separated on this gel. Digestion of the normal allele results in fragments of 113 and 399 bp. J, 6-bp deletion of FGFR2, detected by sequencing of a cloned mutant allele and by restriction enzyme MspI, which digests the mutant allele to create fragments of 8, 16, 17, 96, and 206 bp. Digestion of the normal allele results in fragments of 8, 17, 96, and 228 bp. Bands <96 bp are not visualized on this gel. The American Journal of Human Genetics  , DOI: ( /301855) Copyright © 1998 The American Society of Human Genetics Terms and Conditions

4 Figure 3 Alignment of Xenopus, mouse, and human TWIST amino acid sequences and the human TWIST nucleotide sequence. Fifty-six amino acids from the N-terminal portion and 34 amino acids from the C-terminal portion of the protein are not shown. All mutations that have been found thus far in the human nucleotide sequence are shown (arrows and brackets). Recurrent mutations are denoted by either larger font or thicker brackets. Boxes indicate simple repeats that may play a role in causing unequal–crossing-over events and subsequent recurrent duplications and deletions. The American Journal of Human Genetics  , DOI: ( /301855) Copyright © 1998 The American Society of Human Genetics Terms and Conditions

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