This dissertation describes the cloning and characterization of the TOUSLEDlike
kinases genes of maize (ZmTLKs). The TOUSLED-like kinases (TLKs) are a
conserved family of nuclear Ser/Thr kinases in higher eukaryotes. The maize genome
has three TOUSLED-like kinase genes (ZmTLK1, ZmTLK2, and ZmTLK3). Based
upon sequence similarity, the ZmTLKs are divided into two classes, the ZmTLK1 and
the ZmTLK2/3 class. The origins of these genes can be inferred from their map
positions and relationships with TLKs in other Zea species. The ZmTLK1 and
ZmTLK2 genes occupy syntenous positions on chromosome arms 1L and 5S in the
maize genome. There are two equivalent classes of TLK genes in other Zea species,
altogether indicating that the two ZmTLK classes are orthologous genes from the
precursor species of maize, an ancient allotetraploid.
Gene expression studies of ZmTLKs show that there is a higher level of
expression in tissues undergoing DNA synthesis. This is consistent with studies of
TLKs in animal systems that show involvement in chromatin assembly/remodeling
activities during DNA replication and repair, as well as in transcription. The highest
level of gene expression for the ZmTLK2/3 class was observed during development of
the endosperm, in a period of massive nuclear endoreduplication. ZmTLK1 is not
upregulated in endoreduplicating endosperm, suggesting functional divergence
between the two classes of ZmTLK genes.
The function of the ZmTLKs was examined by testing whether maize TLK
genes could complement the tousled mutant of Arabidopsis. In Arabidopsis thaliana,
recessive mutations in the single copy TOUSLED (TSL) gene cause moderate
vegetative and severe floral defects, suggesting that TLKs may play a role in gene
expression modulation through chromatin remodeling. The ZmTLK proteins are 84%
identical to TSL in the catalytic region and 45 - 49% at the N-terminal regulatory
domain. However, structural features of the N-terminal region domains of the
ZmTLKs are similar to that of TSL. Arabidopsis tsl-1 mutant plants were transformed
with ZmTLK2, under the control of the CaMV 35S promoter. These plants showed
wild-type Arabidopsis phenotype, indicating that in spite of their sequence differences,
ZmTLK2 and TSL interact with the same substrates and regulatory partners and are
functionally equivalent. / Graduation date: 2005
Identifer | oai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/29010 |
Date | 28 June 2004 |
Creators | Owusu, Ethel Owusuwaa |
Contributors | Rivin, Carol J. |
Source Sets | Oregon State University |
Language | en_US |
Detected Language | English |
Type | Thesis/Dissertation |
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