Log(FI/SS)1 0 1 F r e q u e n c y (A U) 0 1 Log(SS) 1 2 3 L o g (F I) 2 1 3 Raw data Processed data Figure S1 Representative GFP fluorescence data from flow cytometry of a sample culture expressing the CEN/ARS plasmid A typical distribution pattern of GFP fluorescence intensity (FI) values showed two groups a major group with low valuesß Ò , C N ¤$, v 2 d ¢ ß ¶ v o O q ¥ > Ú \Î\ Ñ ü@ Æ 0 ã\Ø 2 ·c d;!\Õ$, ¯ u t ü R\ü t\Ñ\Ã\µ !\è\É\ \½\ö\ó 2 ·c d;!\ü Q W$, W d = ` q O s ß ß b q O W h y y$, W d = b q O c ¾ ³ Ñ · v o O q z T < Ï y W ß ß b q O u O } $, 9 ÷\ü t\Í\Ð\®\õ t\ó\Ô\®We also note from the first order condition that the residuals c N are orthog onal to the columns of B N To reach a contradiction, assume that there is no sequence of factor risk premia for which (105) holds Then we must have c → ∞ (since c is the left hand side of (105)) Now consider the sequence of portfolios given by w Indicate The Formula For The Following Conditions C N R I Got Cns quarterly