Camouflage Patterning in Maize Leaves Results from a Defect in Porphobilinogen Deaminase

doi:10.1093/mp/ssp029

Molecular Plant Advance Access originally published online on May 14, 2009
Molecular Plant 2009 2(4):773-789; doi:10.1093/mp/ssp029

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Camouflage Patterning in Maize Leaves Results from a Defect in Porphobilinogen Deaminase

Mingshu Huang^a, Thomas L. Slewinski^a, R. Frank Baker^a, Diane Janick-Buckner^b, Brent Buckner^b, Gurmukh S. Johal^c and David M. Braun^a^,1

^a Department of Biology, Pennsylvania State University, University Park, PA 16802
^b Division of Science, Truman State University, Kirksville, MO 63501
^c Department of Botany and Plant Pathology, Purdue University, West Lafayette, IN 47907

¹ To whom correspondence should be addressed at 208 Mueller Lab, address ^a. E-mail dbraun{at}psu.edu, fax (814) 865-9131, tel. (814) 863-1108.

Maize leaves are produced from polarized cell divisions thatresult in clonal cell lineages arrayed along the long axis ofthe leaf. We utilized this stereotypical division pattern toidentify a collection of mutants that form chloroplast pigmentationsectors that violate the clonal cell lineages. Here, we describethe camouflage1 (cf1) mutant, which develops nonclonal, yellow–greensectors in its leaves. We cloned the cf1 gene by transposontagging and determined that it encodes porphobilinogen deaminase(PBGD), an enzyme that functions early in chlorophyll and hemebiosynthesis. While PBGD has been characterized biochemically,no viable mutations in this gene have been reported in plants.To investigate the in vivo function of PBGD, we characterizedthe cf1 mutant. Histological analyses revealed that cf1 yellowsectors display the novel phenotype of bundle sheath cell-specificdeath. Light-shift experiments determined that constant lightsuppressed cf1 sector formation, a dark/light transition isrequired to induce yellow sectors, and that sectors form onlyduring a limited time of leaf development. Biochemical experimentsdetermined that cf1 mutant leaves have decreased PBGD activityand increased levels of the enzyme substrate in both green andyellow regions. Furthermore, the cf1 yellow regions displayeda reduction in catalase activity. A threshold model is hypothesizedto explain the cf1 variegation and incorporates photosyntheticcell differentiation, reactive oxygen species scavenging, andPBGD function.

Key Words: camouflage1 • maize • porphobilinogen deaminase • tetrapyrrole biosynthesis • variegated leaf

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