... c4 (figh)U = cA(fi)c4(g)c4(h) U. Using cA(f) H C (c.4(g) H)" and St4 we obtain c4 (fi).c4(g)c4(h)UH = cA (figh)UH = c_1(fg1.h)UH = cA(f)cA (gl)c.4(h)UH C. c.4(g))c,4(h) U(c4(g)H)" C (c.4(g)c.4(h)Uc4(g)H)". With Hi := ca(g)c4 ...
... C-4 eudicots. Am J Bot 94: 362–381 Nelson T and Dengler N (1997) Leaf vascular pattern formation. Plant Cell 9: 1121–1135 Nelson T and Dengler NG (1992) Photosynthetic tissue differentiation in C-4 plants. IntJ Plant Sci 153: S93–S105 ...
... C, the concentration of PEP also varied as shown. Assays were repeated (n = 3) at each concentration. Individual data points are shown for the following PEPC (A) Panicum queenslandicum (B) Panicum pygmaeum (C) Flaveria trinervia and (D) ...
... C Subjects , by Type of Area and Table Number ( This guide lists all subjects covered in this part but does not indicate all cross - classifications ; for example , by owner- and renter ... C - Continued Table Finding TFG - 4 TFG-4.
... 4, 0. 1, 0, 0.25, 0. 75), 3, 3, by row healthy • – numeric (10000) healthy [1] → - 1 for (t in 1: 9999) healthy [t ... c 4 c 4 d' 4 e '4 e '4. d' 8 d' 2 e' 4 e 4 f '4 g' 4 g' 4 f '4 e '4 d' 4 c 4 c 4 d' 4 e o 4 d' 4. c 8 c 2 d' 4 d' 4 e ...
... c 4 c 4 1 c 4 2 c Figure 10.26 An arborescent filter bank decomposition used for fast computation of the kurtogram [27]. c21 32 c 4 3 c2 2 6 c 4 7 c3 3 c 4 c 4 4 c 4 c3 4 5 c3 5 c 4 8 c k c2 3 9 c 4 c3 10 6 c37 c c c 4 4 4 11 12 13 c 4 14 c ...
... ( c ( 1 ) , ... , c ( 4 ) ) = [ c ( 1 ) + a ' ] [ c ( 2 ) + a2 ] [ c ( 3 ) + a3 ] [ c ( 4 ) + a ^ ] with a1 = 0.005637 , a2 = 0.015637 , a3 = 0.024546 and a * = 0.036 . Obviously , W is a continuous , strictly increasing and quasi ...