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1 er genetic loci without the need for lengthy backcrossing.
2  populations of gray wolves probably through backcrossing.
3  flow and introgression from one another via backcrossing.
4 s been transferred to sexual pearl millet by backcrossing.
5 nome after controlling the nuclear genome by backcrossing.
6 sed individually into both lines by repeated backcrossing.
7  the DA background or vice versa by repeated backcrossing.
8 y narrowed down over multiple generations of backcrossing.
9          We developed near-isogenic lines by backcrossing.
10  selection, and the number of generations of backcrossing.
11 osome into a simulans background by repeated backcrossing.
12 brevidens synteny groups had occurred during backcrossing.
13              We developed this population by backcrossing 25 wild barley accessions to the six-rowed
14 n the T cells of lupus-prone MRL/lpr mice by backcrossing a CD2-Foxj1 transgene against the MRL/lpr b
15  reference genome sequence, was derived from backcrossing a Phytophthora root rot resistance locus fr
16                                           By backcrossing a Slc11a1 knockout allele onto the NOD gene
17   TLR-9-deficient MRL mice were generated by backcrossing a TLR-9-deficient allele against the MRL ba
18 hese strains were derived by introgressively backcrossing alleles from resistant DBA/2 mice onto the
19                                              Backcrossing and complementation confirmed the importanc
20  susceptible DBA/2 (D2) background by serial backcrossing and intercrossing to produce congenic strai
21                                        After backcrossing and isolation of a single clone, random spo
22 t introgression strains produced by repeated backcrossing and phenotypic selection, we show that thes
23      If the recurrent line is inbred and the backcrossing and selection is conducted in a series of r
24 491) population based on five generations of backcrossing and seven generations of selfing.
25 indica (rice 9311), through multi-generation backcrossing, and generated a nearly isogenic, blight-re
26 e derived from these strains before complete backcrossing, and provide a possible explanation for the
27   Bcl-3-deficient NOD mice were generated by backcrossing Bcl-3-deficient C57BL/6 mice to NOD mice.
28                                           By backcrossing Brown-Norway HK-deficient rats with Lewis r
29 ganelle genomes were replaced through serial backcrossing by those representing the entire genus, yie
30 es a short isoform of CTLA-4 (1/4 CTLA-4) by backcrossing C57BL/6.1/4CTLA-4-transgenic mice to the MR
31  IL-4 -/- lupus-prone mice were generated by backcrossing cytokine knockout animals against MRL/lpr b
32 ference in memory retention was studied in a backcrossing experiment in which the phenotype of N. gir
33                                        Using backcrossing experiments we mapped the Bam gene to dista
34                          Through a series of backcrossing experiments with an uninfected Trichogramma
35  on a large population (n = 276) obtained by backcrossing F(1) rats to the recessive S strain; the po
36                                              Backcrossing F1 hybrid females between these two species
37  EDF+, T+, S+, probably resulted from random backcrossing followed by stabilization through selection
38 The resistant progeny were identified during backcrossing for five generations.
39 isting of any arbitrary sequence of selfing, backcrossing, intercrossing and haploid-doubling steps t
40 Apc(Min/+)) congenic strain was generated by backcrossing into BALB/c the Apc(Min) allele from C57BL/
41                         Interestingly, after backcrossing into the C57BL/6 background, RD-fed Grp78(+
42                                           By backcrossing into the Ws and Landsberg erecta genetic ba
43 ime loci evaluated in populations derived by backcrossing late-flowering alleles from a biennial pare
44 ondiabetic)/Lt strain, and then reciprocally backcrossing obese F1 mice to the lean NON/Lt parental s
45 ion of congenic sublines of mice by repeated backcrossing of CAST with B6 mice and phenotype characte
46                                    Recurrent backcrossing of female hybrids to savanna bulls replaced
47                                              Backcrossing of founder CD22(-/-) mice onto the C57BL/6
48                  Here we find that continued backcrossing of Taf7l(-/Y) mice from N5 to N9 produced K
49                            However, extended backcrossing of this mouse line to the NOD mouse resulte
50                Here, we demonstrate that the backcrossing of wild mice with knockout mutant laborator
51 up a mouse model by reciprocal crossings and backcrossings of SFB-monoassociated, formerly germ-free,
52  background by outcrossing to C57BL/10J, and backcrossing or intercrossing.
53                                            A backcrossing programme successfully transferred this res
54 nesis, we created a transgenic murine model, backcrossing RAGE-null mice to a spontaneous mouse model
55                                              Backcrossing rd1 with C57BL6 mice reveals the complete l
56 roduction of greater chromosomal homology by backcrossing restores mitotic recombination in offspring
57 tions, but not a limited introgression after backcrossing several generations of female hybrids to ma
58 -linked loci polymorphic between 129 and the backcrossing strain resulted in systematic genetic confo
59                                              Backcrossing synthetic A. suecica to tetraploid A. thali
60         A phenotypic selection and recurrent backcrossing technique was used to introduce dormancy ge
61 e longevity QTL on chromosomes III and X, by backcrossing the Bergerac-BO QTL allele into an RC301 ba
62 physiologically highly useful mouse model by backcrossing the original line with C57/BL6J mice.
63 dy, we eliminate clinical biliary disease by backcrossing this Pkhd1 mutation onto the C57BL/6 geneti
64 und, eliminating the need for generations of backcrossing to achieve congenic animals.
65 BL/6 Optn(470T/470T) mice, but after further backcrossing to C57BL/6, offspring viability was restore
66                    After four generations of backcrossing to M. nasutus, nearly isogenic lines were s
67 plicate introgressions were made by repeated backcrossing to simulans for 15 generations.
68 Congenic strains are constructed by repeated backcrossing to the background strain with selection at
69 truction and obviates the need for extensive backcrossing to the C57BL/6 background.
70                               After repeated backcrossing to the C57BL/6J background, we compared the
71 lting hybrids formed the new species without backcrossing to the parents.
72 tic mapping strategy that involves recurrent backcrossing with phenotypic selection to obtain new ins
73 itative trait could be isolated by recurrent backcrossing with selection on the trait.
74                                        After backcrossing with the Landsberg erecta (Ler) wild-type (
75 rived from the 129 mouse strain, followed by backcrossing with the more robust C57BL/6 strain.
76 ost from the hybrid genome, possibly through backcrossing with the P. arietina group.
77 story of this unisexual species has included backcrossing with the parent species before the onset of
78                                      Further backcrossing yielded mMCP-6(-/-) mice with the BALB/c MH

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