1 n the well-established laboratory fish model
Xiphophorus.
2 ion within the genetic map of the fish genus
Xiphophorus.
3 ybrids between distinct species of the genus
Xiphophorus are often used in varied research investigat
4 All 24 acrocentric chromosome sets of
Xiphophorus are represented in the assembled linkage map
5 Swordtail fish (Poeciliidae: genus
Xiphophorus)
are a paradigmatic case of sexual selection
6 (UV) ra-diation (UVR)-induced melanoma in a
Xiphophorus backcross hybrid model previously reported t
7 ther in several populations of the swordtail
Xiphophorus birchmanni.
8 eported here are the same as the melanoma in
Xiphophorus,
by assessing mutation of the EGFR gene, Xmr
9 ails to do so, when exogenously expressed in
Xiphophorus cells derived from a melanoma.
10 Here, we show that
Xiphophorus cortezi females from two populations prefer
11 Previously, select
Xiphophorus experimental crosses have been shown to exhi
12 cally melanoma-susceptible specific cross of
Xiphophorus fish.
13 Further characterization of
Xiphophorus FoxO5 will contribute to understanding the m
14 Expansion of the
Xiphophorus gene map by linkage analysis of AP-PCR/RAPD
15 ression properties of a fish CDKN2 gene from
Xiphophorus helleri and X. maculatus.
16 me features are also present in a swordtail (
Xiphophorus helleri) genomic DXB PCR clone.
17 Thus
Xiphophorus,
in contrast to zebrafish, Danio rerio, and
18 rkers we report can be easily adapted to any
Xiphophorus interspecies and some intraspecies crosses,
19 e number of genetic markers available in the
Xiphophorus interspecies cross of interest.
20 Melanoma development in the fish
Xiphophorus is determined, at least in part, by overexpr
21 CDKN2X was mapped to a region on autosomal
Xiphophorus linkage group V (LG V) known to contain the
22 The CDKN2-like polymorphism maps to
Xiphophorus linkage group V and exhibits recombination f
23 The gene, which we have named FoxO5, maps to
Xiphophorus Linkage Group XV.
24 esulted in the addition of 16 new markers to
Xiphophorus linkage groups (LGs) I, II, III, V, IX, X, X
25 Using a cross between
Xiphophorus maculatus and X. andersi, we report a linkag
26 class II B genes from the inbred fish strain
Xiphophorus maculatus Jp 163 A.
27 loned an FKHR (FoxO sub-family) homolog from
Xiphophorus maculatus.
28 In the
Xiphophorus melanoma model, a functional oncogene (Xipho
29 horus melanoma model, a functional oncogene (
Xiphophorus melanoma receptor kinase Xmrk) has been main
30 easily scored markers by characterization of
Xiphophorus microsatellite sequences.
31 melanoma susceptibility in this UV-inducible
Xiphophorus model, we genotyped individual animals from
32 diated communication by northern swordtails,
Xiphophorus nigrensis, using a custom-built videopolarim
33 We UV-irradiated spotted side
Xiphophorus platyfish-swordtail backcross hybrids to ind
34 us melanoma formation in spotted dorsal (Sd)
Xiphophorus platyfish-swordtail hybrids has been studied
35 There are 24 described
Xiphophorus species and a greater number of pedigreed st
36 Here we have sequenced CDKN2X in both
Xiphophorus species and have characterized its expressio
37 Melanomas in
Xiphophorus spp. fishes (platyfishes and swordtails) hav
38 Knowledge of the
Xiphophorus TP53 sequences will allow assessment of muta