Eun-Sook Song scite author profile

Nodules are formed on legume roots as a result of signaling between symbiotic partners and in response to the activities of numerous genes. We cloned fragments of differentially expressed genes in spot-inoculated soybean (Glycine max) roots. Many of the induced clones were similar to known genes related to oxidative stress, such as thioredoxin and b-carotene hydroxylase. The deduced amino acid sequences of full-length soybean cDNAs for thioredoxin and b-carotene hydroxylase were similar to those in other species. In situ RNA hybridization revealed that the thioredoxin gene is expressed on the pericycle of 2-d-old nodules and in the infected cells of mature nodules, suggesting that thioredoxin is involved in nodule development. The thioredoxin promoter was found to contain a sequence resembling an antioxidant responsive element. When a thioredoxin mutant of yeast was transformed with the soybean thioredoxin gene it became hydrogen peroxide tolerant. These observations prompted us to measure reactive oxygen species levels. These were decreased by 3-to 5-fold in 7-d-old and 27-d-old nodules, coincident with increases in the expression of thioredoxin and b-carotene hydroxylase genes. Hydrogen peroxide-producing regions identified with cerium chloride were found in uninoculated roots and 2-d-old nodules, but not in 7-d-old and 27-d-old nodules. RNA interference-mediated repression of the thioredoxin gene severely impaired nodule development. These data indicate that antioxidants such as thioredoxin are essential to lower reactive oxygen species levels during nodule development.

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Induction of a homeodomain–leucine zipper gene by auxin is inhibited by cytokinin in Arabidopsis roots

Son

Cho

Kim

et al. 2004

Biochemical and Biophysical Research Communications

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Sperm-Surface ATP in Boar Spermatozoa is Required for Fertilization: Relevance to Sperm Proteasomal Function

Park

Kim

et al. 2009

Systems Biology in Reproductive Medicine

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Extracellular ATP has been implicated in a number of cellular events, including mammalian sperm function. The complement of ATP-dependent sperm proteins includes six subunits of the 26S proteasome, a multi-subunit protease specific to ubiquitinated substrate-proteins. Proteolysis of ubiquitinated proteins by the 26S proteasome is necessary for the success of mammalian fertilization, including but not limited to acrosomal exocytosis (AE) and spermzona pellucida (ZP) penetration. The 26S proteasome is uniquely present on the sperm acrosomal surface during mammalian, ascidian, and invertebrate fertilization. The proteasome is a multi-subunit protease complex of B2 MDa composed of the 19S regulatory complex and a 20S proteolytic core. Integrity of the 19S complex is maintained by six 19S ATPase subunits (PSMC1 through PSMC6). Consequently, we hypothesized that fertilization will be blocked by the depletion of sperm-surface associated ATP (ssATP). Depletion of ssATP by the Solanum tuberosum apyrase, a 49 kDa, non-cell permeant enzyme, significantly reduced the ATP content measured by an adapted luminescence-ATP assay from which all permeabilizing agents were excluded. Addition of active apyrase to porcine in vitro fertilization (IVF) medium caused a concentration dependent reduction in the overall fertilization rate. No such outcomes were observed in control groups using heat-inactivated apyrase. Apyrase treatment altered the band pattern of 19S ATPase subunits PSMC1 (Rpt2) and PSMC4 (Rpt3) in Western blotting, suggesting that it had an effect on the integrity of the sperm proteasomal 19S complex. Apyrase only altered the proteasomal core activities slightly, since these activities are not directly dependent on external ATP. In contrast, sperm treatment with MG132, a specific inhibitor of the proteasomal core chymotrypsin-like activity, inhibited the target proteolytic activity, but also induced a compensatory elevation in proteasomal peptidylglutamyl peptide hydrolase activity. Altogether, the present data provide an important missing piece of evidence in support of the ssATP-dependent, proteasomal-proteolytic model of sperm-ZP interactions.

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Engineering lacZ Reporter Gene into an ephA8 Bacterial Artificial Chromosome Using a Highly Efficient Bacterial Recombination System

Kim¹,

Song²,

Choi³

et al. 2007

BMB Reports

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Eun-Sook Song

Induction of Thioredoxin Is Required for Nodule Development to Reduce Reactive Oxygen Species Levels in Soybean Roots

Induction of a homeodomain–leucine zipper gene by auxin is inhibited by cytokinin in Arabidopsis roots

Sperm-Surface ATP in Boar Spermatozoa is Required for Fertilization: Relevance to Sperm Proteasomal Function

Engineering lacZ Reporter Gene into an ephA8 Bacterial Artificial Chromosome Using a Highly Efficient Bacterial Recombination System

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