High-throughput behavioral phenotyping in the expanded panel of BXD recombinant inbred strains.
- Authors
- Philip, V M; Duvvuru, S; Gomero, B; Ansah, T A; Blaha, C D; Cook, M N; Hamre, K M; Lariviere, W R; Matthews, D B; Mittleman, G; Goldowitz, D; Chesler, E J
- Year
- 2010
- Journal
- Genes, brain, and behavior
- PMID
- 19958391
- DOI
- 10.1111/j.1601-183X.2009.00540.x
- PMCID
- PMC2855868
Genetic reference populations, particularly the BXD recombinant inbred (BXD RI) strains derived from C57BL/6J and DBA/2J mice, are a valuable resource for the discovery of the bio-molecular substrates and genetic drivers responsible for trait variation and covariation. This approach can be profitably applied in the analysis of susceptibility and mechanisms of drug and alcohol use disorders for which many predisposing behaviors may predict the occurrence and manifestation of increased preference for these substances. Many of these traits are modeled by common mouse behavioral assays, facilitating the detection of patterns and sources of genetic coregulation of predisposing phenotypes and substance consumption. Members of the Tennessee Mouse Genome Consortium (TMGC) have obtained phenotype data from over 250 measures related to multiple behavioral assays across several batteries: response to, and withdrawal from cocaine, 3,4-methylenedioxymethamphetamine; "ecstasy" (MDMA), morphine and alcohol; novelty seeking; behavioral despair and related neurological phenomena; pain sensitivity; stress sensitivity; anxiety; hyperactivity and sleep/wake cycles. All traits have been measured in both sexes in approximately 70 strains of the recently expanded panel of BXD RI strains. Sex differences and heritability estimates were obtained for each trait, and a comparison of early (N = 32) and recent (N = 37) BXD RI lines was performed. Primary data are publicly available for heritability, sex difference and genetic analyses using the MouseTrack database, and are also available in GeneNetwork.org for quantitative trait locus (QTL) detection and genetic analysis of gene expression. Together with the results of related studies, these data form a public resource for integrative systems genetic analysis of neurobehavioral traits.
Strain intra-class correlations for all measures. (a) Frequency histogram of strain intra-class correlations for both sexes combined. A majority of the behavioral measures (146 of 257) have Ο2 greater than 30% making them amenable to QTL mapping. (b) Scatter plot of strain intra-class correlations for males and females. Dotted lines are 95% upper and lower prediction intervals for the relationship between these values. Dashed lines are the corresponding 95% upper and lower confidence intervals.
LLM interpretation
This figure consists of two panels analyzing strain intra-class correlations ($\omega^2$). Panel (a) is a frequency histogram showing the distribution of $\omega^2$ for both sexes combined, with a peak count between 30% and 40%. Panel (b) is a scatter plot comparing $\omega^2$ values between males (x-axis) and females (y-axis), featuring a positive linear trend with associated 95% prediction intervals (dotted lines) and confidence intervals (dashed lines).
Quantitative trait locus analysis of mechanical nociception in the original and recent BXD RI panels: QTL analysis of a single-trait, the latency to respond to a plastic-coated smooth alligator clip placed on the tail was performed across three BXD panels, namely, Taylor I (BXD 1β32), Recent BXD RI (BXD 33β100) and Full BXD RI (BXD 1β100). In females, suggestive QTL were detected on Chr 1 and 9 for Taylor I (a), Chr 8 for the Recent BXD RI (BXD 33β100) (b) and Chr 1, 11 and 17 for the Full RI Lines (c). Mapping of tail clip latency in males showed no suggestive QTL for Taylor I (d), suggestive QTL on Chr 2, 9 and 18 for Recent BXD RI (BXD 33β100) (e), and two suggestive QTL on Chr 2 and 9 for the Full RI panel (f).
LLM interpretation
This figure consists of three Manhattan plots (d, e, and f) showing quantitative trait locus (QTL) analysis for tail clip latency in male mice across three BXD panels: Taylor I, Recent RI, and Full RI. The x-axes represent genomic position in megabases across chromosomes 1β19 and X, while the y-axes measure the LOD score. Peaks indicating suggestive QTL are visible on chromosomes 2, 9, and 18 for the Recent RI panel (e), and on chromosomes 2 and 9 for the Full RI panel (f), whereas no suggestive QTL are observed for the Taylor I panel (d).
Effect plot of marker gnf01.018.340 (Chr 1 at 21.43 Mb) in Taylor I (BXD 1β32) and Recent RI (BXD 33β100). The marker present at the suggestive QTL in Taylor 1 has a higher phenotypic means for the B allele when compared with the D allele. This difference is significant and therefore results in the presence of a QTL. The same marker in the Recent BXD RI lines has a higher phenotypic mean for the D allele, but no QTL is present within this strain set.
LLM interpretation
This is a line graph showing the phenotypic means for two genotype groups (BB and DD) across two different strain sets. For the Taylor I group (dashed line), the BB genotype has a higher phenotypic mean than the DD genotype, whereas for the Recent BXD RI group (solid line), the DD genotype has a higher mean than the BB genotype. The y-axis represents the "Phenotypic Mean" and the x-axis represents "Genotypes."
Factor scores from individual strains plotted on a set of axes each representing a factor show a behavioral profile of each strain. Although some strains exhibit different magnitudes of similar profiles, others are distinct. Axes labels represent the first eight factors: (1) injection stress-induced locomotor activity, (2) morphine withdrawal (3) morphine response, (4) reactivity, (5) locomotor activity in a novel environment, (6) conflict avoidance, (7) morphine activity duration and (8) cocaine sensitization. All strain profiles are available in supplementary figure.
LLM interpretation
This figure consists of a series of radar (spider) plots showing behavioral factor scores for 12 different BXD mouse strains. Each plot features eight axes representing distinct behavioral factors, ranging from (1) injection stress-induced locomotor activity to (8) cocaine sensitization. The plots illustrate varying behavioral profiles across strains, with some showing similar shapes but different magnitudes and others exhibiting distinct patterns.
Across trait and across studies correlations: (a) saline-induced locomotor activity: in our study two laboratories, Memphis (Cocaine) and UTHSC (Ethanol), collected data on open field locomotion following saline in 15 and 20 min on 64 BXD RI strains, respectively. We compared these data with data collected on saline-induced locomotor response by Demarest et al. (1999) on 25 BXD RI strains. Results indicate that there is good correlation among data on saline-induced locomotor response across the laboratories and to a previously published study. Correlations among the rMemphis,UTHSC = 0.556,rMemphis,Demarest = 0.781 and rDemarest,UTHSC = 0.695. (b) Thermal nociception: thermal nociception (hot plate latency) was preformed in two laboratories, namely, ORNL and Memphis in this study. Data collected in this study were compared with a previously published study of thermal nociception by Mogil et al. (1997) and Brigman et al. (2009). Correlations ranged from 0.274 to 0.799 (Fig. 4b). The low correlation among the data collected at the Memphis and ORNL laboratories may be attributed to the two different hot plate temperatures used.
LLM interpretation
This figure consists of two correlation matrices (a and b) featuring scatter plots and histograms. Panel (a) shows correlations for saline-induced locomotor activity across three groups (Demarest et al., Memphis, and UTHSC), with Pearson correlation coefficients ($r$) ranging from 0.654 to 0.783. Panel (b) displays correlations for thermal nociception across four groups (Memphis, ORNL, Mogil et al., and Brigman et al.), with $r$ values ranging from 0.274 to 0.799. Each matrix displays the distribution of individual traits as histograms along the diagonal and the relationship between pairs as scatter plots with associated $r$ and $N$ values.
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