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Placental PPAR�� function cannot be readily deduced from the complex phenotype of Pparg-null placentas or the extensive knowledge of PPAR�� function in other tissues. Our rigorous screens aimed at overcoming this hurdle by pinpointing high-confidence downstream targets of PPAR�� in trophoblasts. We integrated the four non-redundant PPAR��-dependence paradigms of altered expression in Pparg-null placentas, Rxra-null placentas, Rosi-treated WT TSC, and Pparg-null TSC, surmising that any genuine PPAR�� target should abide by each of these criteria. We further buttressed robustness by careful biological LBH589 replications within each of these categories. Specifically, in whole placentas we reined in random discoveries by comparing three pools of three WT to three pools of three Pparg-null or Rxra-null placentas, which normalized both placenta-to-placenta variation and uneven sample contamination with peri-placental tissues. In TSC, we aimed for robustness by aligning two WT lines from other laboratories with one WT and two Pparg-null lines that we generated for this study. While each of these lines exhibited basic cellular and molecular characteristics of TSC, their global gene expression patterns, levels and kinetics were markedly heterogeneous even within same-genotype groups. Because no single TSC line could be deemed more representative than Adriamycin mouse others, we circumvented this limitation by centering on genes that were differentially expressed in Pparg-null placentas. This retained the robustness offered by the multiple TSC lines, while focusing on genes with immediate in vivo relevance. In additional post-hoc qPCR analyses that tested effects of PPAR�� dosage in Pparg+/? placentas, less than 50% of all genes tested passed a liberal dosage sensitivity benchmark, and this ratio was not improved among genes that abided by all paradigms. While the primary reason is conceivably the statistically fickle nature of the rather minute differential anticipated of most of these genes, PPAR�� dosage sensitivity could not be reasonably applied as an exclusion criterion, and had solely confirmatory value. A critical component Pentamorphone in paradigm integration was the choice of FC and q ?-value thresholds. To contain false negative calls while ensuring that only genuinely expressed genes impacted FDR without compromising exclusion of false positive data, we narrowed the viable data fields by omitting the all probe sets that scored ��Absent�� in all samples by MAS5.0 (see Fig. S2 and legend for a detailed rationale). We then chose the cutoffs of 1.3�� change and q ?