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1 allelic variations between the S rat and the LEW rat.
2 id early T. gondii-killing mechanisms in the LEW rat.
3 1 and F2 offspring of the crossing of SD and LEW rats.
4 A extracted from femurs of COP, DA, F344 and LEW rats.
5 as well as after at least 10 backcrosses to LEW rats.
6 C3Smn.CB17-Prkdc(scid)/J mice, as well as in LEW rats.
7 ll-depleted F344 bone marrow into irradiated LEW rats.
8 re heterotopically transplanted in recipient LEW rats.
9 by the transfusion of F344 whole blood into LEW rats.
10 oups: control Sprague-Dawley (SD) and Lewis (LEW) rats, 3- to 4-month diabetic SD and LEW rats, and 4
16 nonimmune-suppressed streptozotocin-diabetic LEW rats and insulin and porcine proinsulin mRNA-express
17 elerated (< 36 h) rejection in presensitized LEW rats and results in permanent acceptance of LBNF1 ca
18 is (LEW) rats, 3- to 4-month diabetic SD and LEW rats, and 4-month diabetic LEW rats preventatively t
23 with the exception of stress-hyporesponsive LEW rats, despite all strains displaying similar functio
25 tion more rapidly than F344 or ACI rats, yet LEW rats display reduced corticosterone responses to str
26 gnificantly across strains, and in this case LEW rats displayed a reduced sensitivity to morphine.
27 Systemic injection of the 2F4 clone to naive LEW rats elicited an antigen-specific delayed-type hyper
29 ltures of five rat strains, including Lewis (LEW) rats, exhibited a disrupted DG cytoarchitecture, sl
30 king the irradiated LEW donor liver in naive LEW rats for 48 hr before retransplantation to DA recipi
31 ly, despite having higher levels of ROS, the LEW rat had lower transcript levels for antioxidant enzy
32 red to the uninfected BN rat, the uninfected LEW rat has inherently higher transcript levels of cytoc
33 f morphine and cocaine in these two strains, LEW rats have lower basal, and generally higher drug-ind
34 and basal activity were also observed, with LEW rats having less protein and slower in vivo clearanc
35 CI skin and cardiac allografts on 3 of the 9 LEW rats in group 1 are viable to date (skin, > 170 days
36 en together, the lower basal DAT function in LEW rats is consistent with their greater novelty-induce
37 red to the Brown Norway (BN) rat, the Lewis (LEW) rat is extremely resistant to T. gondii infection.
39 C incompatible DA (RTl(a)) to Lewis (RT1(1), LEW) rat liver allografts are acutely rejected, the reci
40 xidase) than the BN rat, suggesting that the LEW rat maintains cellular oxidative stress that it tole
44 irs were performed in three groups of Lewis (LEW) rats: negative controls (n = 4), local MSCs (epineu
47 rin (MnTBAP) decreased the refractoriness of LEW rat peritoneal cells to T. gondii infection, resulti
48 , resulting in proliferation of parasites in LEW rat peritoneal cells which, in turn, led to augmente
50 rejected in an accelerated manner (<36 h) by LEW rats presensitized with Brown-Norway skin grafts.
51 abetic SD and LEW rats, and 4-month diabetic LEW rats preventatively treated with a chow LPA admix (4
52 usage in splenic IgM-producing B cells from LEW rats rapidly expands from 0.8% in naive animals to 1
53 onal antibodies and splenic lymphocytes from LEW rats rejecting hamster heart xenografts were used to
58 cted in an accelerated manner within 36 h by LEW rats that have been sensitized with Brown Norway rat
61 we performed RNA sequencing analysis of the LEW rat versus the BN rat, with or without T. gondii inf
64 a secondary immune response, three groups of LEW rats were transfused with ACI blood with no accompan
66 , a T cell line from peptide + IFA-immunized LEW rats (which did not develop EAE) failed to secrete t
68 antigens (ED1) persisted for longer times in LEW rats while expression of MHC class II molecules was