I have been through several threads in the archive, but cannot seem to find a solution to my problem.
I can't get the spacing between lines to be consistent in 0.92beta when there are mixed fonts (in this case, some characters are in Symbol font). In 0.20.5 the spacing remains consistent throughout. I've tried a variety of properties and values with no luck. Can someone please help? See attached .fo and .pdf files. Thanks, John
<?xml version="1.0" encoding="UTF-8"?> <fo:root xmlns:fo="http://www.w3.org/1999/XSL/Format"; xmlns:fox="http://xml.apache.org/fop/extensions";> <fo:layout-master-set> <fo:simple-page-master master-name="Master" page-height="11in" page-width="8.5in" margin-right="0.75in" margin-left="0.75in" margin-bottom="1in" margin-top="1in"> <fo:region-body/> </fo:simple-page-master> </fo:layout-master-set> <fo:page-sequence master-reference="Master" initial-page-number="1"> <fo:flow flow-name="xsl-region-body"> <fo:block font-family="monospace" font-size="8pt" line-height="5mm" white-space-collapse="false" wrap-option="no-wrap" white-space="pre" linefeed-treatment="preserve"> Two patterns were found in the C14 distribution of the E. coli amino acids from tracer expts. with C14O2, C14H3COOH, CH3C14OOH, aspartic acid (I) and glutamic acid (II), both C14-uniformly labeled, and 1-C14-glutamic acid. The one family with the specific activity pattern like (I) included diaminopimelic acid (III), lysine (IV), threonine (V), isoleucine (VI), and methionine (VII). The other family which followed the pattern of II was proline (VIII) and arginine (IX). The distinction was also shown in the location of the isotope within the mols. of each member. C14-VIII was incorporated into the bacterial protein but was not converted to II or IX. A similar result was obtained for C14-IX. When cold glutamic-<fo:inline font-family="Symbol" font-weight="normal">γ</fo:inline>-semialdehyde was added to the C14-glucose medium, no C14 was found in the bacterial VIII, whereas all other bacterial amino acids were radioactive. From various expts., it was proposed that the syntheses of VIII and IX was, resp., as: II <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> glutamic-<fo:inline font-family="Symbol" font-weight="normal">γ</fo:inline>-semialdehyde <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> VIII, and II <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> N-acetyl-II <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> N<fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">α</fo:inline></fo:inline>-acetylornithine <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> ornithine <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> citrulline <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> IX; and the relations of the members of the I family were as follows:IV<fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline>I <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline>III <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline>homoserine<fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline>VII<fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline>V<fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline><fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">α</fo:inline></fo:inline>- ketobutyric acid <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline><fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">α</fo:inline></fo:inline>-aminobutyric acid <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline><fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">α</fo:inline></fo:inline>-keto-<fo:inline font-family="Symbol" font-weight="normal">β</fo:inline>-methylvaleric acid <fo:inline font-weight="bold"><fo:inline font-family="Symbol" font-weight="normal">â??</fo:inline></fo:inline> VI. Yeast (Torulopsis utilis), mold (Neurospora crassa), and algae (Chlorella pyrenoidosa) behaved in certain aspects similar to E. coli B. </fo:block> </fo:flow> </fo:page-sequence> </fo:root>
line-height-0.20.5.pdf
Description: Adobe PDF document
line-height-0.92beta.pdf
Description: Adobe PDF document
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