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Studies of artificial cryoprecipitates containing anti-DNA antibody activity (1981)

Taylor, R. P. ; Waller, S. J. ; Davis, J. S. ; [et al.]

Springer

Rheumatology international 1 (1981), S. 1-6

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ISSN: 1437-160X

Keywords: Cryoprecipitates ; SLE ; Complement ; Antibody ; Rheumatoid factor ; DNA ; Immune complexes

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Artificial cryoprecipitates have been prepared from SLE sera by incubation of anti-double stranded DNA with 3H-PM2 DNA, IgM rheumatoid factor, and complement to study further the relationships between natural cryoprecipitation and the DNA/anti-DNA system in this disorder. Addition of rheumatoid factor and/or complement to a mixture of SLE serum and 3H-DNA results in increased precipitation of the 3H-DNA following incubation at 4 °C. Precipitations formed with added complement or complement plus rheumatoid factor could be rapidly resolubilized or reprecipitated by warming to 37 °C or recooling to 4 °C, i.e., exhibited the behavior of natural cryoprecipitates. The resolubilized cryoprecipitates contained excess antibody, because they bound significant quantities of additional 3H-DNA in the Farr assay. Of special interest was the observation that DNA binding activity frequently could be recovered from resolubilized cryoprecipitates even though 3H-DNA was not added during the original cryoprecipitate preparation. With certain cryoprecipitations prepared in this way, the DNA binding activity was further increased by deoxyribonuclease treatment, raising the possibility that endogenous DNA may be a constituent of such cryoprecipitates. The implications of these findings with respect to the nature of antibody-DNA immune complexes in SLE are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00541215

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Quantitative genetics of bud phenology, frost damage, and winter survival in an F2 family of hybrid poplars (2000)

Howe, G. T. ; Saruul, P. ; Davis, J. ; [et al.]

Springer

Theoretical and applied genetics 101 (2000), S. 632-642

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ISSN: 1432-2242

Keywords: Key words Bud flush ; Bud set ; Frost hardiness ; Photoperiod ; Short day

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We studied the quantitative genetics of bud phenology, fall frost damage, and winter survival in an F2 family (no. 822) of Populus hybrids derived from a cross between two full-sub F1 hybrids (P. trichocarpa (Torr. & Gray×P. deltoides Bartr.). Field traits studied included the timing of bud set (BSF) in Minnesota and Oregon, the timing of bud flush (BFF) in Oregon, as well as fall frost damage (FDF) and winter survival (WSF) in Minnesota. We conclude that Family 822 has substantial genetic variability for all field traits, BSF and BFF are under moderate to strong genetic control (H 2 i =0.48–0.80), FDF and WSF are under low to moderate genetic control (H 2 i =0.27–0.40), and late bud set is associated with increased frost damage and decreased winter survival. In a warm greenhouse, we measured the timing of bud set and the number of new leaves on trees growing under either an 8-h photoperiod (BSSD and NLSD) or a natural photoperiod (NP) from August to December (BSNP and NLNP). We found that BSSD, NLSD, and NLNP are under moderate genetic control (H 2 i =0.53–0.70), but the heritability of BSNP could not be determined because few trees set bud in the warm greenhouse under the NP. By comparing results from the greenhouse experiments with results from the field, we conclude that the genetic correlation between BSSD and BSF (0.53–0.60) is relatively modest and that NPs in the fall are relatively ineffective at promoting bud set under warm greenhouse temperatures, although bud set readily occurred in the field. Although, low levels of light pollution in the greenhouse might have affected BSNP, results from both greenhouse and field experiments suggest that genetic differences in photoperiodic responses play a modest role in explaining genetic differences in the timing of bud set under natural field conditions. Therefore, genetic differences in responses to other environmental factors, such as temperature, deserve greater attention.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220051525

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