Open Close
Christensen, S., Cook, K., Cook, K. (2009.2.28). Isolation and characterization of Df(3L)BSC753. 
FlyBase ID
Publication Type
Personal communication to FlyBase
PubMed ID
PubMed Central ID
Text of Personal Communication
From: kercook@XXXX
Subject: Isolation and characterization of Df(3L)BSC753
Date: February 28, 2009  12:36:18  PM GMT- 05:00 
To: flybase-cambridgeXXXX, sjchristXXXX, ruacookXXXX, kaufmanXXXX
Isolation and characterization of Df(3L)BSC753
Stacey Christensen, Kim Cook and Kevin Cook
Bloomington Stock Center
Indiana University
Df(3L)BSC753 was isolated as a FLP recombinase-induced recombination event involving P{XP}d03517 and PBac{RB}e01116. The deletion was isolated as a chromosome carrying two copies of the miniwhite marker in progeny of w1118; P{hs-hid}3, Dr1/TM6C, Sb1 cu1 females crossed to P{hsFLP}1, y1 w1118; P{XP}d03517/PBac{RB}e01116 males. The males were heat shocked as larvae as described in Parks et al., Nature Genetics 36: 288-292, 2004 (FBrf0175003). This cross and crosses in preceding and succeeding generations maintained the original genetic background of the Exelixis insertion stocks (Thibault et al., Nature Genetics 36: 283-287, 2004; FBrf0175002). The recombination event generated the genetic element P+PBac{XP3.RB5}BSC753 from the segment of P{XP}d03517 to the left of its FRT site and the segment of PBac{RB}e01116 to the right of its FRT site. The cytological breakpoints of Df(3L)BSC753 predicted from the Release 5 genomic coordinates of the transposable element insertion sites are 68A4;68C9. Df(3L)BSC753 failed to complement l(3)01239j9B4 and Sodn1.
Kevin Cook, Ph.D.
Bloomington Drosophila Stock Center
Department of Biology
Indiana University
1001 E. Third St.
Bloomington, IN  47405-7005
812-856-1213 (office), 812-855-2577 (fax)
Associated Information
Associated Files
Other Information
Secondary IDs
    Language of Publication
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Data From Reference
    Aberrations (1)
    Alleles (2)
    Genes (2)
    Insertions (3)
    Transgenic Constructs (1)