BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. rs2476601, ERBB2, Metabolism of xenobiotics, Influenza, Prostate, Laryngoscope)
Bookmark Forward

Makorin 1 Regulates Developmental Timing in Drosophila

Hong Thuan Tran, Eunjoo Cho, Seongsu Jeong, Eui Beom Jeong, Hae Sang Lee, Seon Yong Jeong, Jin Soon Hwang, Eun Young Kim

Molecules and Cells 2018 Nov 06


filter terms:
  • 5′- aaggtttggacgagatggtg- 3′ (2)
  • 5′- accgacttcttcagcgacac- 3′ (1)
  • 5′- gacgtgcggcatctgctttg- 3′ (1)
  • 5′- gagttcggttactccaaccg- 3′ (1)
  • 5′- gcccaagcccccattgaagt- 3′ (1)
  • 5′- gcgttctggatggagaccaa- 3′ (1)
  • 5′- gctgggactgaatccgaata- 3′ (2)
  • 5′- gcttgcatttccgagacgat- 3′ (1)
  • 5′- gtaactttcgggtgcgcttc- 3′ (1)
  • 5′- tactgagccaaatatcgaatgcg- 3′ (1)
  • 5′- tgtttggcctgacgccatgt- 3′ (1)
  • 5′- ttcacaaatctcatggccg- 3′ (1)
  • 5′- ttcatgcgcggctggtctatcg- 3′ (1)
  • 5′- ttcgtccgtcaggtgttgcc- 3′ (1)
  • adult (3)
  • allele (3)
  • AMPK (5)
  • anti- igg (1)
  • antibodies (1)
  • brain (8)
  • breast cancer (1)
  • CAG 3 (1)
  • cancer (1)
  • cardiovascular disease (1)
  • cbp20 (2)
  • cellular (1)
  • CG12477 (10)
  • CG32442 (3)
  • CG5334 (9)
  • children (2)
  • cognitive (1)
  • corpus allatum (1)
  • corpus cardiacum (1)
  • CTRL (1)
  • cytoplasm (2)
  • direct (2)
  • dna polymerase (1)
  • edta (1)
  • electrophoresis (1)
  • element (3)
  • et 2 (1)
  • eyed (1)
  • factors (2)
  • fly (5)
  • founder (1)
  • fruit fly drosophila (1)
  • GAL4 (1)
  • gapdh (2)
  • gene (31)
  • genotypes (1)
  • glycerol (1)
  • gonadotropin (1)
  • hepes (1)
  • hoechst 33342 (1)
  • hook (1)
  • hTERT (2)
  • humans (5)
  • hypothalamus (2)
  • increases size (1)
  • insulin (9)
  • invertebrates (2)
  • life cycle (1)
  • mammals (9)
  • metamorphosis (7)
  • mice (2)
  • MKRN1 (96)
  • MKRN3 (18)
  • molecular functions (2)
  • mrna (10)
  • mutagenesis (1)
  • NaF (1)
  • nutrient (4)
  • oligo dt (1)
  • p53 (3)
  • paralogs (3)
  • patients (2)
  • pbs 100 (1)
  • period (5)
  • phase (3)
  • phenotypes (1)
  • Phm (2)
  • ppk5 (3)
  • proteins domain (2)
  • PTEN (5)
  • ptth (21)
  • pupa (6)
  • P{EPgy}mkrn1 (1)
  • qRT (2)
  • Rb 1 (2)
  • reagent (1)
  • regulates (2)
  • ribonucleoprotein (1)
  • RING finger protein (2)
  • rna (3)
  • RpL32 (2)
  • rt pcr (2)
  • sequences dna (1)
  • serum (1)
  • shadow (1)
  • signals (2)
  • sodium (1)
  • stem cells (1)
  • steroid (6)
  • strains (2)
  • target gene (2)
  • target proteins (1)
  • triton x- 100 (2)
  • ubiquitin (6)
  • vertebrate (8)
  • weight (5)
  • weight increases (1)
  • western blot (2)
  • white color (1)
  • zinc finger proteins (2)
    • Sizes of these terms reflect their relevance to your search.

    The central mechanisms coordinating growth and sexual maturation are well conserved across invertebrates and vertebrates. Although mutations in the gene encoding makorin RING finger protein 3 (mkrn3 ) are associated with central precocious puberty in humans, a causal relationship has not been elucidated. Here, we examined the role of mkrn1, a Drosophila ortholog of mammalian makorin genes, in the regulation of developmental timing. Loss of MKRN1 in mkrn1 exS prolonged the 3rd instar stage and delayed the onset of pupariation, resulting in bigger size pupae. MKRN1 was expressed in the prothoracic gland, where the steroid hormone ecdysone is produced. Furthermore, mkrn1 exS larvae exhibited reduced mRNA levels of phantom, which encodes ecdysone-synthesizing enzyme and E74, which is a downstream target of ecdysone. Collectively, these results indicate that MKRN1 fine-tunes developmental timing and sexual maturation by affecting ecdysone synthesis in Drosophila. Moreover, our study supports the notion that malfunction of makorin gene family member, mkrn3 dysregulates the timing of puberty in mammals.

    Citation

    Hong Thuan Tran, Eunjoo Cho, Seongsu Jeong, Eui Beom Jeong, Hae Sang Lee, Seon Yong Jeong, Jin Soon Hwang, Eun Young Kim. Makorin 1 Regulates Developmental Timing in Drosophila Molecules and Cells. 2018 Nov 06;41(12):1024-1032


    PMID: 30396233

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.