Home       About             Help       Select plot or tool > Pheno measurements correlated to your selected measurements Pearson correlation p value must be p ≤ 0.00001 0.0001 0.001 0.01 0.05 0.1 0.15 Download all At least 8 10 12 15 20 25 30 strains in common are required Include: females and males females only males only all projects within same project only other projects only Ackert1 only Albers1 only Bachmanov1 only Bennett1 only Bennett2 only Bennett3 only Benoist1 only Berndt1 only Berndt2 only Berndt3 only Bodnar1 only Boon1 only Bopp1 only Brown1 only Brown2 only Brugnara1 only CGDpheno1 only CGDpheno2 only CGDpheno3 only Chang1 only Chang2 only Chesler1 only Chesler2 only Chesler3 only Cheverud1 only Churchill1 only Collins1 only Crabbe1 only Crabbe2 only Crabbe3 only Crabbe4 only Crabbe5 only Crowley1 only Deschepper1 only DiCurzio1 only Dietrich1 only DiPetrillo1 only DiPetrillo2 only Donahue1 only Donahue2 only Donahue3 only Donahue4 only Donahue5 only Donahue6 only Donahue7 only Donahue8 only Donahue9 only Donahue10 only Donahue11 only Donahue12 only Donahue13 only Donahue14 only Donahue15 only Donahue16 only Donahue17 only Donahue18 only Donahue19 only Eumorphia1 only Eumorphia2 only Eumorphia3 only Eumorphia4 only Eumorphia5 only Eumorphia6 only Eumorphia7 only Everett1 only Evsikova1 only Finn1 only Flaherty1 only Frankel1 only Gavras1 only Gershenfeld1 only Golani1 only Gould1 only Gould2 only Gould3 only Graubert1 only Gros1 only Gupta1 only Gupta2 only Hampton1 only Handel1 only Harrill2 only Harrill2D only Hawes1 only HMDPpheno1 only HMDPpheno2 only HMDPpheno4 only Hunter1 only Jax1 only Jax2 only Jax3 only Jax4 only Jax5 only JaxAVL only Jaxpheno1 only Jaxpheno2 only Jaxpheno3 only Jaxpheno4 only Jaxpheno5 only Jaxpheno6 only Jaxpheno7 only Jaxpheno8 only Jaxwest1 only Jentsch1 only Johnson1 only Johnson3 only Johnson4 only Jones1 only Justice2 only Kas1 only Klaassen1 only Koide1 only Koide2 only Koide3 only Korstanje1 only Lake1 only Lake2 only Lake3 only Lightfoot1 only Marchuk1 only Massett1 only Mathes1 only Maurer1 only Metten1 only Metten2 only Mills1 only Mitchell1 only Mogil1 only Mogil2 only Moy1 only Nadeau1 only Naggert1 only Nelson1 only Paigen1 only Paigen2 only Paigen3 only Paigen4 only Palmer1 only Palmer2 only Peters1 only Peters2 only Peters3 only Peters4 only Petkova1 only Petryshen1 only Pletcher1 only Puk1 only Reed1 only Rhodes1 only RIKEN-EAD1 only RIKEN-EAD2 only Richfield1 only Rusyn2 only Rusyn5 only Schalkwyk1 only Schonfeld1 only Schughart1 only Schulz1 only Schwartz2 only Seburn1 only Seburn2 only Shockley1 only Shockley1D only Spijker1 only Spijker2 only Sugiyama1 only Sundberg1 only Svenson1 only Svenson3 only Svenson4 only Taft1 only Thomsen1 only Thomsen2 only Threadgill1 only Threadgill2 only Tomasini1 only Tordoff1 only Tordoff2 only Tordoff3 only Vinyard1 only Vulpe1 only Wahlsten1 only Wahlsten2 only Williams1 only Willott1 only Wiltshire1 only Wiltshire2 only Wiltshire3 only Xing1 only Xing2 only Yuan1 only Yuan3 only Yuan4 only Zheng1 only Order by pheno category Pearson p value Pearson r value Spearman r value project category+project More info on correlations Your selected measurement: bone — morphology — craniofacial         DXA   Donahue1 skull_length   total skull length   [mm] 29 strains   age 15-16wks   Inbred

Correlated measurement from anywhere in MPD (organized by category) Sex Pearson r p value on r Spearman rs # strains in common Click for scatterplot Log- improved Pearson behavior – balance and coordination Crabbe3   ARR2_post_20rpm   accelerating rotarod (ARR2) average latency of post-injection trials 2, 3 (after ethanol treatment = ETPOST) (20 rpm/min) (ethanol 2g/kg i.p.) female –0.60 p = 0.0054 –0.48 20 Plot   behavior – fear conditioning HMDPpheno4   ctx_vel   contextual fear velocity, day 2 male –0.59 p = 0.0084 –0.72 19 Plot   HMDPpheno4   ctx_vel_inb   contextual fear velocity, day 2, inbred strains only male –0.59 p = 0.0084 –0.72 19 Plot   behavior – locomotor activity Thomsen2   activ_D2_doseD   total activity (horizontal plus vertical beam breaks), 3h session (quinelorane 5.6 mg/kg i.p.) female –0.85 p = 0.0017 –0.53 10 Plot   Thomsen2   activ_D2_doseC   total activity (horizontal plus vertical beam breaks), 3h session (quinelorane 3.2 mg/kg i.p.) female –0.84 p = 0.0022 –0.68 10 Plot   Thomsen2   activ_D2_doseB   total activity (horizontal plus vertical beam breaks), 3h session (quinelorane 0.32 mg/kg i.p.) female –0.83 p = 0.0027 –0.53 10 Plot   Thomsen2   activ_D2_doseB   total activity (horizontal plus vertical beam breaks), 3h session (quinelorane 0.32 mg/kg i.p.) male –0.79 p = 0.0065 –0.57 10 Plot   Thomsen2   activ_D2_doseC   total activity (horizontal plus vertical beam breaks), 3h session (quinelorane 3.2 mg/kg i.p.) male –0.78 p = 0.0084 –0.65 10 Plot   Wahlsten1   dist_EPM_min3   distance traveled, elevated plus maze minute 3 female 0.56 p = 0.0095 0.59 20 Plot   blood – clinical chemistry – bilirubin Yuan3   TBIL_M06   total bilirubin (serum TBIL) (age 6mo) female 0.63 p = 0.0093 0.38 16 Plot   blood – clinical chemistry – electrolytes Yuan3   Mg_M18   magnesium (serum Mg) (age 18mo) male 0.78 p = 0.0028 0.82 12 Plot   Yuan3   Cl_M06   chloride (serum Cl) (age 6mo) female 0.68 p = 0.0035 0.59 16 Plot 0.71 blood – clinical chemistry – enzymes Rusyn2   AST_24_ctrl   aspartate aminotransferase (serum AST), t=24h male –0.88 p = 0.0003 –0.68 11 Plot   Yuan3   ALP_M06   alkaline phosphatase (serum ALP) (age 6mo) female –0.69 p = 0.0033 –0.63 16 Plot   Yuan3   ALP_M06   alkaline phosphatase (serum ALP) (age 6mo) male –0.74 p = 0.0039 –0.62 13 Plot   Yuan3   LIP_M12   lipase (plasma LIP) (age 12mo) female 0.67 p = 0.0042 0.68 16 Plot 0.72 Harrill2   ALT_ctrl   alanine aminotransferase (serum ALT) female –0.62 p = 0.0051 –0.44 19 Plot   Yuan3   ALT_M12   alanine aminotransferase (plasma ALT) (age 12mo) male –0.66 p = 0.0059 –0.48 16 Plot   blood – clinical chemistry – gases CGDpheno1   carbon_dioxide   dissolved-ionized carbon dioxide (CO2) female 0.62 p = 0.0005 0.69 28 Plot   CGDpheno1   carbon_dioxide   dissolved-ionized carbon dioxide (CO2) male 0.54 p = 0.0030 0.57 28 Plot   blood – clinical chemistry – urea nitrogen Harrill2D   BUN_fold   fold change across cohorts for blood urea nitrogen (serum BUN) (DB289 ) female 0.61 p = 0.0055 0.58 19 Plot   blood – hematology – coagulation Peters1   PT   prothrombin time (PT) female –0.63 p = 0.0003 –0.63 28 Plot   blood – hematology – RBC parameters CGDpheno1   RDW   RBC corpuscular distribution width (RDW) female –0.74 p < 0.0001 –0.78 28 Plot   CGDpheno1   RDW   RBC corpuscular distribution width (RDW) male –0.73 p < 0.0001 –0.74 28 Plot   Peters1   RDW   RBC corpuscular distribution width (RDW) male –0.68 p < 0.0001 –0.58 29 Plot   Peters1   RDW   RBC corpuscular distribution width (RDW) female –0.60 p = 0.0006 –0.56 29 Plot   blood – lipids – cholesterol – HDL Albers1   largeHDL_chow   percentage of large HDL particles (10-13 nm) female 0.82 p = 0.0021 0.88 11 Plot   Albers1   HDLsize_chow   HDL peak size male 0.84 p = 0.0022 0.82 10 Plot   CGDpheno1   HDLD   HDL cholesterol (plasma HDL) male 0.55 p = 0.0024 0.56 28 Plot   Paigen1   HDL_Ch   HDL cholesterol (plasma) (high-fat diet 8wks) female 0.55 p = 0.0045 0.50 25 Plot 0.61 Albers1   largeHDL_chow   percentage of large HDL particles (10-13 nm) male 0.79 p = 0.0070 0.90 10 Plot   Paigen1   pctHDL-TCH   percent of total plasma cholesterol in HDL fraction (high-fat diet 8wks) female 0.51 p = 0.0089 0.53 25 Plot 0.67 blood – lipids – cholesterol – LDL or non-HDL Paigen1   nonHDL_Ch   plasma cholesterol not in the HDL fraction (high-fat diet 8wks) female –0.55 p = 0.0040 –0.34 25 Plot   blood – lipids – phospholipid Albers1   PL_HDL_chow   HDL phospholipid female 0.86 p = 0.0007 0.94 11 Plot   Albers1   PL_HDL_chow   HDL phospholipid male 0.83 p = 0.0014 0.60 11 Plot   Albers1   PL_chow   total phospholipid female 0.83 p = 0.0017 0.81 11 Plot   blood – lipids – triglycerides Albers1   TG_fat   total triglycerides (high-fat diet 6wks) female –0.86 p = 0.0007 –0.75 11 Plot   Paigen2   TG_fat17   triglycerides (high-fat diet 17wks) male –0.59 p = 0.0015 –0.54 26 Plot -0.63 blood – xenobiotics – alcohol concentration Crabbe4   BEC_grip60   blood ethanol concentration (BEC) 60 min post-injection (ethanol 2g/kg i.p.) male 0.74 p = 0.0002 0.62 20 Plot   Crabbe4   BEC_grip105   blood ethanol concentration (BEC) 105 min post-injection (ethanol 2g/kg i.p.) female 0.63 p = 0.0030 0.48 20 Plot 0.67 Rusyn5   BAC_hf   blood alcohol concentration (BAC) (high-fat diet 4wks) male –0.77 p = 0.0096 –0.73 10 Plot   body composition – fat Tordoff3   fat_wt   weight of fat tissue, head excluded female 0.71 p < 0.0001 0.77 28 Plot 0.78 Naggert1   fatwt_fat8   weight of fat portion of tissue mass, head excluded (high-fat diet 8wks) female 0.55 p = 0.0025 0.55 28 Plot 0.64 Donahue1   fat_wt   weight of fat portion of body mass, head excluded female 0.52 p = 0.0040 0.56 29 Plot 0.62 Ackert1   fatwt_M06   weight of fat portion of body mass, head excluded (age 6mo) female 0.64 p = 0.0046 0.70 18 Plot 0.71 body composition – lean Donahue1   lean_wt   lean body tissue mass, head excluded male 0.86 p < 0.0001 0.81 29 Plot   Tordoff3   lean_wt   weight of lean tissue, head excluded female 0.86 p < 0.0001 0.83 28 Plot 0.89 Donahue1   lean_wt   lean body tissue mass, head excluded female 0.83 p < 0.0001 0.79 29 Plot   Tordoff3   lean_wt   weight of lean tissue, head excluded male 0.83 p < 0.0001 0.80 28 Plot   CGDpheno1   LTM   lean tissue mass, head excluded female 0.83 p < 0.0001 0.81 27 Plot   Naggert1   leanwt_fat8   weight of lean portion of tissue mass, head excluded (high-fat diet 8wks) male 0.80 p < 0.0001 0.73 27 Plot   CGDpheno1   LTM   lean tissue mass, head excluded male 0.81 p < 0.0001 0.78 26 Plot   Naggert1   leanwt_fat8   weight of lean portion of tissue mass, head excluded (high-fat diet 8wks) female 0.76 p < 0.0001 0.71 28 Plot   Ackert1   LTM_M06   weight of lean tissue mass, head excluded (age 6mo) male 0.83 p < 0.0001 0.63 18 Plot 0.88 Ackert1   LTM_M06   weight of lean tissue mass, head excluded (age 6mo) female 0.82 p < 0.0001 0.70 18 Plot 0.87 Ackert1   LTM_M20   weight of lean tissue mass, head excluded (age 20mo) female 0.77 p = 0.0012 0.69 14 Plot   Ackert1   LTM_M12   weight of lean tissue mass, head excluded (age 12mo) female 0.73 p = 0.0013 0.60 16 Plot   body composition – total Tordoff3   total_wt   total weight (lean + fat), head excluded female 0.86 p < 0.0001 0.82 28 Plot 0.89 CGDpheno1   TTM   total tissue mass, head excluded female 0.83 p < 0.0001 0.80 27 Plot   CGDpheno1   TTM   total tissue mass, head excluded male 0.82 p < 0.0001 0.79 26 Plot   Donahue1   total_wt   total tissue mass, head excluded male 0.79 p < 0.0001 0.72 29 Plot 0.82 Donahue1   total_wt   total tissue mass, head excluded female 0.77 p < 0.0001 0.77 29 Plot 0.81 Tordoff3   total_wt   total weight (lean + fat), head excluded male 0.75 p < 0.0001 0.66 28 Plot 0.79 Naggert1   tissuemass_fat8   total tissue mass, head excluded (high-fat diet 8wks) female 0.73 p < 0.0001 0.68 28 Plot   Naggert1   tissuemass_fat8   total tissue mass, head excluded (high-fat diet 8wks) male 0.72 p < 0.0001 0.63 27 Plot 0.76 Ackert1   TTM_M06   total tissue mass, head excluded (age 6mo) female 0.76 p = 0.0002 0.67 18 Plot 0.83 Ackert1   TTM_M06   total tissue mass, head excluded (age 6mo) male 0.76 p = 0.0003 0.62 18 Plot 0.84 Ackert1   TTM_M12   total tissue mass, head excluded (age 12mo) female 0.72 p = 0.0015 0.68 16 Plot 0.77 Ackert1   TTM_M12   total tissue mass, head excluded (age 12mo) male 0.70 p = 0.0054 0.69 14 Plot 0.73 Ackert1   TTM_M20   total tissue mass, head excluded (age 20mo) female 0.66 p = 0.0097 0.70 14 Plot 0.71 body weight size and growth – body mass index (BMI) Ackert1   BMI_M06   body mass index (BMI) (age 6mo) female 0.71 p = 0.0009 0.61 18 Plot   Ackert1   BMI_M06   body mass index (BMI) (age 6mo) male 0.65 p = 0.0036 0.52 18 Plot 0.70 Ackert1   BMI_M12   body mass index (BMI) (age 12mo) female 0.67 p = 0.0049 0.54 16 Plot 0.71 Ackert1   BMI_M12   body mass index (BMI) (age 12mo) male 0.68 p = 0.0072 0.61 14 Plot   body weight size and growth – body size CGDpheno1   bodylength   body length (tip of nose to base of tail) female 0.82 p < 0.0001 0.75 24 Plot   Ackert1   BL_M06   body length (tip of nose to base of tail) (age 6mo) male 0.85 p < 0.0001 0.71 18 Plot   Ackert1   total_area_M06   total body area without head (age 6mo) female 0.82 p < 0.0001 0.66 18 Plot 0.85 Ackert1   BL_M06   body length (tip of nose to base of tail) (age 6mo) female 0.82 p < 0.0001 0.69 18 Plot   Ackert1   total_area_M06   total body area without head (age 6mo) male 0.79 p < 0.0001 0.60 18 Plot 0.84 Ackert1   BL_M20   body length (tip of nose to base of tail) (age 20mo) female 0.85 p = 0.0001 0.83 14 Plot   CGDpheno1   bodylength   body length (tip of nose to base of tail) male 0.70 p = 0.0002 0.79 23 Plot   Reed1   length   body length (from base of lower incisors to base of anus) male 0.73 p = 0.0010 0.64 17 Plot 0.77 Ackert1   total_area_M12   total body area without head (age 12mo) female 0.73 p = 0.0013 0.63 16 Plot   Ackert1   BL_M12   body length (tip of nose to base of tail) (age 12mo) female 0.69 p = 0.0031 0.60 16 Plot   Ackert1   total_area_M12   total body area without head (age 12mo) male 0.69 p = 0.0061 0.70 14 Plot   Ackert1   total_area_M20   total body area without head (age 20mo) female 0.67 p = 0.0083 0.68 14 Plot 0.70 Ackert1   BL_M20   body length (tip of nose to base of tail) (age 20mo) male 0.71 p = 0.0094 0.74 12 Plot 0.75 body weight size and growth – body weight Willott1   bw   body weight female 0.89 p < 0.0001 0.87 29 Plot   Tordoff3   bw_end   body weight at end of testing female 0.86 p < 0.0001 0.82 28 Plot   Tordoff3   bw_start   body weight at start of testing female 0.85 p < 0.0001 0.84 28 Plot   CGDpheno1   bodyweight   body weight female 0.85 p < 0.0001 0.81 27 Plot   Tordoff3   bw_start   body weight at start of testing male 0.81 p < 0.0001 0.75 28 Plot   CGDpheno1   bodyweight   body weight male 0.83 p < 0.0001 0.81 26 Plot   Willott1   bw   body weight male 0.80 p < 0.0001 0.81 29 Plot   Paigen1   finalbw   final body weight (high-fat diet 8wks) female 0.83 p < 0.0001 0.77 25 Plot   Tordoff3   bw_end   body weight at end of testing male 0.79 p < 0.0001 0.75 28 Plot   Naggert1   bw_fat8   body weight (high-fat diet 8wks) female 0.75 p < 0.0001 0.72 28 Plot   Yuan1   bw_M06   body weight (age 6mo) female 0.86 p < 0.0001 0.81 18 Plot 0.90 Harrill2   bw_start_ctrl   body weight at start of testing female 0.83 p < 0.0001 0.73 19 Plot   Paigen1   finalbw   final body weight (high-fat diet 8wks) male 0.76 p < 0.0001 0.70 25 Plot 0.80 Harrill2   bw_start_trt   body weight at start of testing (DB289 ) female 0.83 p < 0.0001 0.69 19 Plot   Lightfoot1   bw   body weight at the start of testing female 0.78 p < 0.0001 0.79 23 Plot   Naggert1   bw_fat8   body weight (high-fat diet 8wks) male 0.73 p < 0.0001 0.65 27 Plot 0.77 Crowley1   bw_d0   body weight male 0.84 p < 0.0001 0.72 17 Plot 0.87 Yuan1   bw_M06   body weight (age 6mo) male 0.80 p < 0.0001 0.58 18 Plot 0.87 Harrill2   bw_end_ctrl   body weight at end of testing female 0.78 p < 0.0001 0.63 19 Plot   Ackert1   BW_M06   body weight (age 6mo) female 0.79 p < 0.0001 0.69 18 Plot 0.85 Paigen1   initbw   body weight female 0.76 p = 0.0001 0.79 20 Plot 0.82 Yuan1   bw_M12   body weight (age 12mo) female 0.81 p = 0.0001 0.64 16 Plot 0.87 Ackert1   BW_M06   body weight (age 6mo) male 0.77 p = 0.0002 0.62 18 Plot 0.85 Yuan1   bw_M18   body weight (age 18mo) female 0.79 p = 0.0003 0.78 16 Plot 0.85 Harrill2   bw_end_trt   body weight at end of testing (DB289 ) female 0.73 p = 0.0004 0.55 19 Plot 0.77 Handel1   BW   body weight male 0.86 p = 0.0004 0.63 12 Plot   Paigen1   initbw   body weight male 0.71 p = 0.0004 0.56 20 Plot 0.75 Reed1   bw   body weight male 0.75 p = 0.0005 0.68 17 Plot 0.79 Crowley1   bw_d120   body weight day 120 (60d post-exposure) (haloperidol 60d) male 0.76 p = 0.0006 0.60 16 Plot 0.81 Donahue18   pup_wt_d3   pup body weight at day 3 female 0.83 p = 0.0009 0.69 12 Plot   Ackert1   BW_M12   body weight (age 12mo) female 0.75 p = 0.0009 0.69 16 Plot 0.79 Seburn1   bw_out   body weight at end of testing female 0.79 p = 0.0012 0.65 13 Plot 0.82 Vinyard1   bw   body weight male 0.75 p = 0.0013 0.71 15 Plot 0.80 Massett1   body_weight   body weight male 0.67 p = 0.0013 0.43 20 Plot 0.72 Rhodes1   BW_end_control   final body weight, without exercise wheel male 0.91 p = 0.0020 0.78 8 Plot 0.95 Vinyard1   bw   body weight female 0.73 p = 0.0020 0.58 15 Plot 0.77 Rhodes1   BW_end_control   final body weight, without exercise wheel female 0.90 p = 0.0023 0.68 8 Plot 0.93 Lightfoot1   bw   body weight at the start of testing male 0.60 p = 0.0024 0.60 23 Plot 0.63 Rhodes1   BW_end_wheel   final body weight, with exercise wheel (6wks) (exercise ) female 0.88 p = 0.0037 0.78 8 Plot 0.92 Seburn1   bw_in   body weight at start of testing female 0.74 p = 0.0037 0.73 13 Plot 0.80 Seburn1   bw_in   body weight at start of testing male 0.72 p = 0.0038 0.62 14 Plot 0.78 Yuan1   bw_M18   body weight (age 18mo) male 0.70 p = 0.0049 0.74 14 Plot 0.73 Yuan1   bw_M12   body weight (age 12mo) male 0.68 p = 0.0051 0.64 15 Plot 0.73 Tordoff2   bwavg   body weight average male 0.64 p = 0.0059 0.61 17 Plot 0.67 Seburn1   bw_out   body weight at end of testing male 0.69 p = 0.0064 0.52 14 Plot 0.75 Ackert1   BW_M20   body weight (age 20mo) female 0.68 p = 0.0080 0.73 14 Plot 0.71 Ackert1   BW_M12   body weight (age 12mo) male 0.67 p = 0.0086 0.69 14 Plot 0.70 bone – mineral density and content Donahue1   body_BMC   whole body bone mineral content female 0.80 p < 0.0001 0.78 29 Plot   Tordoff3   BMC   bone mineral content female 0.81 p < 0.0001 0.79 28 Plot   Donahue1   body_BMC   whole body bone mineral content male 0.80 p < 0.0001 0.74 29 Plot   Naggert1   BMC_fat8   bone mineral content (BMC) (high-fat diet 8wks) female 0.78 p < 0.0001 0.76 28 Plot   Tordoff3   BMC   bone mineral content male 0.77 p < 0.0001 0.67 28 Plot   Tordoff3   BMD   bone mineral density (BMD) female 0.77 p < 0.0001 0.74 28 Plot   Donahue1   body_BMD   whole body bone mineral density (BMD) male 0.74 p < 0.0001 0.68 29 Plot   Donahue1   body_BMD   whole body bone mineral density (BMD) female 0.72 p < 0.0001 0.68 29 Plot   Naggert1   BMC_fat8   bone mineral content (BMC) (high-fat diet 8wks) male 0.74 p < 0.0001 0.64 27 Plot   Tordoff3   BMD   bone mineral density (BMD) male 0.73 p < 0.0001 0.68 28 Plot   Donahue1   skull_BMD   skull bone mineral density female 0.69 p < 0.0001 0.64 29 Plot   Donahue1   spine_BMD   spine (L2-L5) bone mineral density female 0.63 p = 0.0002 0.60 29 Plot   Donahue1   spine_BMD   spine (L2-L5) bone mineral density male 0.63 p = 0.0003 0.58 29 Plot   Donahue1   skull_BMD   skull bone mineral density male 0.62 p = 0.0003 0.56 29 Plot   Naggert1   BMD_fat8   bone mineral density (BMD) (high-fat diet 8wks) male 0.63 p = 0.0005 0.56 27 Plot   Naggert1   BMD_fat8   bone mineral density (BMD) (high-fat diet 8wks) female 0.59 p = 0.0010 0.60 28 Plot   CGDpheno1   BMD   whole body bone mineral density female 0.58 p = 0.0016 0.51 27 Plot   CGDpheno1   BMD   whole body bone mineral density male 0.56 p = 0.0027 0.48 26 Plot   Ackert1   BMC_M06   whole body bone mineral content (BMC) (age 6mo) male 0.65 p = 0.0033 0.63 18 Plot   bone – morphology Donahue1   upper_jaw   length of upper jaw male 0.93 p < 0.0001 0.88 29 Plot   Donahue1   upper_jaw   length of upper jaw female 0.92 p < 0.0001 0.88 29 Plot   Donahue1   lower_jaw   length of lower jaw female 0.91 p < 0.0001 0.91 29 Plot   Donahue1   lower_jaw   length of lower jaw male 0.89 p < 0.0001 0.88 29 Plot   Donahue1   nose_length   nose length female 0.86 p < 0.0001 0.80 29 Plot   Donahue1   skull_width   skull width male 0.85 p < 0.0001 0.82 29 Plot   Donahue1   skull_height   skull height male 0.85 p < 0.0001 0.80 29 Plot   Donahue1   skull_width   skull width female 0.85 p < 0.0001 0.81 29 Plot   Donahue1   nose_length   nose length male 0.82 p < 0.0001 0.68 29 Plot   Donahue1   skull_height   skull height female 0.82 p < 0.0001 0.75 29 Plot   Vinyard1   jaw_length   distance from the incisor alveolus to the caudal surface of the mandibular condyle (jaw length) male 0.90 p < 0.0001 0.82 15 Plot   Vinyard1   jaw_length   distance from the incisor alveolus to the caudal surface of the mandibular condyle (jaw length) female 0.89 p < 0.0001 0.80 15 Plot   Donahue2   femur_width_AP   anterior to posterior (rostral to caudal) width of right femur (mid-diaphysis) female 0.92 p = 0.0002 0.95 10 Plot   Everett1   incisor_gonion   mandible, infradentale to gonion female 0.90 p = 0.0002 0.84 11 Plot   Everett1   ramus_space   mandible, concavity of posterior ramus female 0.89 p = 0.0002 0.81 11 Plot   Everett1   incisor_condyle   mandible, infradentale to posterior condyle female 0.88 p = 0.0003 0.76 11 Plot   Donahue2   femur_length   length of right femur (condyles to rostral tip of greater trochanter) female 0.90 p = 0.0004 0.88 10 Plot   Everett1   post_length   mandible, menton to gonion female 0.88 p = 0.0004 0.60 11 Plot   Everett1   ramus_space   mandible, concavity of posterior ramus male 0.89 p = 0.0006 0.67 10 Plot   Donahue1   inner_canthal   inner canthal distance female 0.57 p = 0.0013 0.50 29 Plot   Everett1   incisor_condyle   mandible, infradentale to posterior condyle male 0.86 p = 0.0015 0.62 10 Plot   Everett1   incisor_gonion   mandible, infradentale to gonion male 0.86 p = 0.0015 0.61 10 Plot   Everett1   teeth_space   mandible, concavity of incisor to anterior molar male 0.85 p = 0.0020 0.68 10 Plot   Vinyard1   max_gape   distance between upper and lower incisor tips at maximum passive jaw opening (maximum gape) female 0.72 p = 0.0025 0.72 15 Plot   Everett1   molar_arch   mandible, anterior molar to posterior molar male 0.83 p = 0.0030 0.83 10 Plot 0.86 Everett1   mid_height   mandible, posterior molar to menton male 0.83 p = 0.0032 0.82 10 Plot   Ackert1   bone_area_M06   whole body bone area, head excluded (age 6mo) male 0.65 p = 0.0034 0.65 18 Plot   Everett1   ant_area   mandible, anterior area male 0.81 p = 0.0042 0.80 10 Plot   Everett1   mid_length   mandible, infradentale to posterior ramus female 0.78 p = 0.0044 0.74 11 Plot   Everett1   teeth_space   mandible, concavity of incisor to anterior molar female 0.78 p = 0.0044 0.45 11 Plot   Donahue1   inner_canthal   inner canthal distance male 0.51 p = 0.0046 0.46 29 Plot   Everett1   post_length   mandible, menton to gonion male 0.81 p = 0.0046 0.51 10 Plot   Everett1   ant_area   mandible, anterior area female 0.77 p = 0.0056 0.58 11 Plot   Vinyard1   max_gape   distance between upper and lower incisor tips at maximum passive jaw opening (maximum gape) male 0.68 p = 0.0057 0.67 15 Plot   Everett1   mid_height   mandible, posterior molar to menton female 0.77 p = 0.0059 0.72 11 Plot   Vinyard1   condyle_curve   angle of condylar curvature female 0.67 p = 0.0066 0.68 15 Plot   Donahue2   femur_length   length of right femur (condyles to rostral tip of greater trochanter) male 0.79 p = 0.0069 0.79 10 Plot   Everett1   mid_length   mandible, infradentale to posterior ramus male 0.79 p = 0.0070 0.60 10 Plot   Everett1   molar_arch   mandible, anterior molar to posterior molar female 0.75 p = 0.0081 0.66 11 Plot   Everett1   ant_length   mandible, infradentale to menton female 0.75 p = 0.0082 0.72 11 Plot   brain – morphology Wahlsten1   brain_wt   brain weight at 12.5 weeks of age (after fixation and trimming) male 0.79 p < 0.0001 0.61 19 Plot   Wahlsten1   brain_wt   brain weight at 12.5 weeks of age (after fixation and trimming) female 0.76 p = 0.0001 0.65 20 Plot   Wahlsten1   brain_pct   brain weight at 12.5 weeks of age (after fixation and trimming) as a percent of body weight female –0.62 p = 0.0034 –0.60 20 Plot   Wahlsten1   brain_pct   brain weight at 12.5 weeks of age (after fixation and trimming) as a percent of body weight male –0.63 p = 0.0036 –0.51 19 Plot   Wahlsten1   ac_area   cross-sectional area of anterior commissure at midplane male 0.58 p = 0.0091 0.55 19 Plot   cardiovascular – ECG parameters Maurer1   QRS_iso10   interval between beginning and end of QRS complex (isoproterenol 10mg/kg 2wks) male 0.73 p = 0.0015 0.82 16 Plot   exercise and endurance Rhodes1   activity_control   distance traveled per day in homecage, without exercise wheel male –0.92 p = 0.0011 –0.88 8 Plot   immune system – cell counts – peripheral blood Petkova1   CD8_effector_M18   effector CD8 T cells (as percent of total CD8 T cells) (age 18mo) female –0.65 p = 0.0060 –0.15 16 Plot   kidney – function Korstanje1   ACR_M12   albumin-creatinine ratio (urine ACR) (age 12mo) male –0.66 p = 0.0056 –0.30 16 Plot   kidney – morphology Harrill2   pctKW_BW_ctrl   total kidney weight as percent of body weight female –0.65 p = 0.0024 –0.56 19 Plot   Deschepper1   kidney_L_adj   kidney (left) weight, per gram of body weight female –0.80 p = 0.0032 –0.73 11 Plot   Harrill2   Lt_kidney_trt   kidney (left) weight (DB289 ) female 0.64 p = 0.0032 0.43 19 Plot   Deschepper1   kidney_bi_adj   kidney weight (both), per gram of body weight female –0.77 p = 0.0051 –0.74 11 Plot   Harrill2   both_kidney_trt   kidney (both) weight (DB289 ) female 0.58 p = 0.0090 0.33 19 Plot   liver – gene expression Rusyn5   liver_Mthfr_hfe   5,10-methylenetetrahydrofolate reductase (Mthfr), relative mRNA abundance (high-fat diet and ethanol 4wks) male –0.84 p = 0.0025 –0.32 10 Plot   liver – lipid homeostasis Paigen1   freeHCC   hepatic cholesterol concentration (free per g liver) (high-fat diet 8wks) male –0.52 p = 0.0074 –0.34 25 Plot   liver – pathology Rusyn5   steatosis_hf   liver steatosis (0-4) (high-fat diet 4wks) male –0.82 p = 0.0036 –0.18 10 Plot   liver – weight Threadgill1   liverwt_ctrl   liver weight male 0.75 p < 0.0001 0.67 23 Plot   Threadgill1   liverwt_Rx300_24h   liver weight, t=24h (acetaminophen 300mg/kg) male 0.69 p = 0.0003 0.69 23 Plot   Paigen1   liverweight   liver weight at sacrifice (high-fat diet 8wks) female 0.66 p = 0.0003 0.62 25 Plot   Harrill2   LW_ctrl   liver weight at sacrifice female 0.67 p = 0.0018 0.53 19 Plot   Paigen1   liverweight   liver weight at sacrifice (high-fat diet 8wks) male 0.51 p = 0.0085 0.54 25 Plot 0.54 metabolism – food intake Tordoff2   fiavgadj   daily average food intake adjusted for body weight (30g) male –0.75 p = 0.0005 –0.60 17 Plot   Evsikova1   food_adj_start   food consumed adjusted for body weight at start of testing (age 6mo) female –0.87 p = 0.0054 –0.60 8 Plot   metabolism – respiratory Seburn1   VO2_daily   oxygen volume, daily female –0.72 p = 0.0059 –0.50 13 Plot   Seburn1   VO2_dark   oxygen volume, dark 12h period male –0.67 p = 0.0086 –0.53 14 Plot   metabolism – water intake Seburn1   water_adj   daily water intake adjusted for body weight (30g) male –0.89 p < 0.0001 –0.81 14 Plot   muscle – skeletal Seburn2   grip_strength_M24   grip strength mean peak tension over 3 trials (age 24mo) female 0.71 p = 0.0031 0.60 15 Plot   neurosensory – sensory gating Willott1   ASR_70   acoustic startle response (ASR) evoked by 70 dB sound pressure level female 0.57 p = 0.0012 0.64 29 Plot 0.62 Willott1   ASR_70   acoustic startle response (ASR) evoked by 70 dB sound pressure level male 0.56 p = 0.0018 0.70 29 Plot 0.64 reproduction – morphology – male Handel1   testes   testicular weight (both left and right) male 0.78 p = 0.0026 0.84 12 Plot   respiratory – breathing pattern Berndt2   insp_flow_mch20   inspiratory flow rate (Vt/Ti) (methacholine 20mg/mL) female 0.67 p = 0.0036 0.66 17 Plot   Berndt2   insp_flow_mch20   inspiratory flow rate (Vt/Ti) (methacholine 20mg/mL) male 0.65 p = 0.0046 0.67 17 Plot   Berndt2   insp_flow_mch5   inspiratory flow rate (Vt/Ti) (methacholine 5mg/mL) female 0.63 p = 0.0063 0.62 17 Plot 0.68 Berndt2   resp_flow_mch20   respiratory flow rate (Vt/Ttot) (methacholine 20mg/mL) male 0.62 p = 0.0086 0.61 17 Plot   respiratory – lung volume Berndt2   tidal_vol_mch20   tidal volume (Vt) (methacholine 20mg/mL) female 0.68 p = 0.0026 0.64 17 Plot   Berndt2   tidal_vol_mch10   tidal volume (Vt) (methacholine 10mg/mL) female 0.62 p = 0.0073 0.50 17 Plot 0.66

230 rows

Reciprocals are included in the above list.

Correlations where Pearson r < 0.5 are not retained and will not appear in the above list.

All correlations available through MPD are mathematical correlations provided for exploratory use, and are not necessarily biologically significant. Additional forms of validation are required. Most correlations are based on strain mean data points which have varying degrees of quality, preciseness, and normality of distribution, and this is generally not taken into account in correlation strength metrics.

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