Six4/5 Family Transcription Factor UNC-39 Controls the Development of RID Neuron in Caenorhabditis elegans

Laskova, Valeriya

15 July 2013

Members of the Six4/5 family of homeobox transcription factors have been implicated in multiple human disorders, including type I mytonic dystrophy, branchio-oto-renal syndrome, and holoprosencephaly, suggesting a role for these factors in the nervous system development. Using a forward genetics approach, we identified unc-39, a C. elegans homologue of the human SIX5 gene, as a novel regulator of the development of a specific neuron, called RID. Our data support the role of unc-39 early in C. elegans development and suggest a possibility of complete absence of RID neuron in unc-39 mutants. unc-39 mutant has a similar locomotion phenotype to the RID-ablated animals, which provides further support to the hypothesis that the absence of RID contributes to the locomotion phenotype observed in the mutant. We show that unc-39 functions at multiple points in the lineage that gives rise to the RID neuron, and that its function is context-dependent.

C. elegans

neuronal development

RID

Six4/5

Six5

unc-39

genetics

cell fate

transcription factor

homeobox

homeodomain

0369

Six4/5 Family Transcription Factor UNC-39 Controls the Development of RID Neuron in Caenorhabditis elegans

Laskova, Valeriya

15 July 2013

Members of the Six4/5 family of homeobox transcription factors have been implicated in multiple human disorders, including type I mytonic dystrophy, branchio-oto-renal syndrome, and holoprosencephaly, suggesting a role for these factors in the nervous system development. Using a forward genetics approach, we identified unc-39, a C. elegans homologue of the human SIX5 gene, as a novel regulator of the development of a specific neuron, called RID. Our data support the role of unc-39 early in C. elegans development and suggest a possibility of complete absence of RID neuron in unc-39 mutants. unc-39 mutant has a similar locomotion phenotype to the RID-ablated animals, which provides further support to the hypothesis that the absence of RID contributes to the locomotion phenotype observed in the mutant. We show that unc-39 functions at multiple points in the lineage that gives rise to the RID neuron, and that its function is context-dependent.

C. elegans

neuronal development

RID

Six4/5

Six5

unc-39

genetics

cell fate

transcription factor

homeobox

homeodomain

0369

Functional study of miRNA-mRNA interactions in malaria mosquito An. gambiae

Fu, Xiaonan

02 July 2018

Female adults of many mosquito species possess distinct physiological features adapting to blood feeding for successful reproduction. The disease pathogens that are transmitted by mosquitoes have evolved to take advantages of the indispensable blood feedings to complete their transmission cycles and to survive attacks from the mosquito's innate immune system. Normal egg development and mosquito immunity are tightly controlled by tissue- and stage-specific gene expression and coordinated by many signal molecules in the mosquito. Understanding gene regulation affecting mosquito reproduction and malaria parasites infection is of paramount importance for developing novel malaria control strategies. A growing body of evidence indicates that microRNAs (miRNAs) are involved in egg maturation and immune reactions against invading pathogens in mosquitoes. However, the molecular mechanisms by which specific miRNAs selectively modulate reproduction and the survival of pathogens are largely unknown. The miRNA-induced gene-silencing pathway in mosquitoes was mostly extrapolated from the studies of flies. To explore the dynamics of miRNAs in reproduction, I used small RNAs sequencing to monitor miRNAs expression and their association with Argonaute 1 (Ago1) and Argonaute 2 (Ago2) in the malaria mosquito Anopheles gambiae (An. gambiae) during the 72-h period immediately after blood feeding. I found the abundance and Ago loading of most of the mature miRNAs were relatively stable after blood ingestion. However, miRNAs of the miR-309/286/2944 cluster were considerably upregulated after blood feeding. I confirmed that miR-309 is essential for normal egg development by depletion of endogenous miR-309 with a specific antagomir. In addition, my results showed that the Ago association of some miRNAs was not proportional to their cellular abundance implying additional regulation at miRNA integration. To investigate the functional roles of miRNAs and define context-dependent miRNA-mRNA interactions during the reproductive process, I have applied an innovative experimental approach to study miRNA-mRNA interactome. CLEAR (covalent ligation of endogenous Argonaute-bound RNAs)-CLIP can generate miRNA-mRNA chimeras from UV-irradiation stabilized Ago-miRNA-mRNA complex. My results have defined tens of thousands of miRNA-mRNA interactions in mosquitoes, including novel targets for mosquito-specific miRNAs. Verification of the predicted interactions using mRNA-seq, ribosome-profiling, and luciferase reporter assay revealed a reliable miRNA-mRNA interaction network. Based on the detected interactions, I refined the paring rules for mosquito miRNAs and illustrated the dynamic pairing between different regions of miRNAs with their targets in vivo. The miRNA-mRNA interactions were compared using this approach at multiple time points before and after blood feeding. Importantly, this study showed that the interactions were dynamic and enriched in genes that are involved in metabolisms, supporting the proposed functions of miRNAs in coordinating the gene regulation in mosquito reproduction. Plasmodium falciparum (P. falciparum) is a major human malaria parasite. To understand the functions of miRNAs in the mosquito resistance to Plasmodium infection, we analyzed the miRNA-mRNA interactions after female mosquitoes taking a P. falciparum-infected blood meal or an uninfected blood meal. Comparison of the interactions revealed enhanced miRNA-mRNA interactions after P. falciparum infection involving a group of immunity-related genes. In summary, this study has provided a systematic view and significantly advanced our understanding of the miRNA functions in mosquito reproduction and P. falciparum infection. / PHD

microRNA

Argonaute

CLEAR-CLIP

CLIP-seq

mRNA-seq

Ribo-seq

RISC

miR-309

let-7

kr-h1

SIX4

oogenesis

metabolism dynamics

Plasmodium falciparum

malaria

Anopheles gambiae

Molecular Studies on Head Development of the Amphipod Crustacean Parhyale hawaiensis / Molekulare Untersuchungen zur Kopfentwicklung des amphipoden Krustazeen Parhyale hawaiensis

Schmid, Bernhard

05 July 2011

No description available.

570 Biowissenschaften, Biologie

Biology (incl. Psychology)

42.00 Biologie

WA.000 Biologie