Revised_Supplemental_Data_file_2nd.docx by Minoru Tanaka (17009469)

“…</p><p dir="ltr"><b>Supplemental Table S2 </b>Explanations of the factors among the genes with large changes in DNA methylation whose gene expression levels were increased or decreased more than 1.5-fold based on RNA-Seq results without <i>Coro1a</i></p>…”

MMP7 Concentrations Significantly Distinguish Control from Subclinical ILD, Familial, or Sporadic IPF by Ivan O Rosas (91093)

“…</p> <p>(C and D) Serum MMP7 concentrations moderately correlate with decreases in FVC% (C) and DL_CO% (D). Linear regressions and 95% CI inversely relate MMP7 concentration (ng/ml) to FVC% and DLCO%. …”

Change in F-actin, PCNT, and insulin expression following PCNT silencing. by Yuan Zu (756047)

“…<p><b>(A)</b> Confocal microscopy imaging and <b>(B)</b> histogram show that intracellular insulin levels decreased significantly in MIN6 cells transfected with PCNT siRNA, compared with control cells transfected with a scrambled siRNA. …”

Results of single terms regressions showing the relationships of response variables to predictors, subsequently used as covariates in the minimum adequate models (<i>MAM</i>) compa... by Oldrich Cizek (105850)

“…Upper-case ^P indicates a situation when polynomial performed better than linear trend, but still did not improve the model. …”

Effect of Acrylamide on Stomach, Cerebellum and Testis of the Albino Rat (PPT) 3.12.2008 by Prof. Dr. Hesham N. Mustafa (664724)

“…Group (I) was subdivided into 3 subgroups, control, Ia that received acrylamide in a dose of 25mg/kg/10days (P.O.) and Ib that received acrylamide in a dose of 25mg/kg/10days (I.P.). …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Reversing and Nonreversing Heat Capacity of Poly(lactic acid) in the Glass Transition Region by TMDSC by M. Pyda (2660185)

“…The enthalpy relaxation and the cold crystallization in the glass transition region are largely irreversible. The melting is largely irreversible, but a 100% reversing fraction is observed at low temperatures from 375 to 420 K, which becomes small inside the major melting peak at about 440 K. …”

Association between ecological factors and different immune components. by Karin Schneeberger (103371)

“…Body mass is positively associated with WBC counts, with large species having the highest number of white blood cells (A). …”

Effects of hEGCs on pattern separation in the DG. by Catherine E. Myers (305069)

“…Increasing input patterns had similar effects in the Standard and Intermediate models, which did not exhibit a large increase in GC firing as pattern number increased. …”