Rosenberg R (1978) Worm Breeder's Gazette

Rosenberg R

[Worm Breeder's Gazette, 1978]

All eyes are on the newest fashion trend, the Dumpy Look . Pace setting designer I.M. Worm s androgynous wardrobe is all the rage in Paris. Bianca Jagger quips, Tres, tres - Women s Wear Daily writes, Elegans personified - Patti Smith thinks, The punks won t buy it and Craig Russell says, It fits right in with my act . A product of Mutant Isolation, Inc.

Kravtsov, V. et al. (2013) International Worm Meeting "The effects of aging on dendritic plasticity and PVD-FLP branch coexistence."

Podbilewicz, B., Oren-Suissa, M., Kravtsov, V.

[International Worm Meeting, 2013]

Self-avoidance, tiling and coexistence are the main mechanisms that enable the best dendritic coverage. C. elegans undergoes aging-associated changes that ultimately lead to decreased functionality of the organism, including its neurological functions. Recent research has shown that the nervous system of C. elegans undergoes changes and alterations during aging including dendritic morphology (Tank et al., 2011). We study dendritic plasticity, aging and spatial dendritic organization of two highly arborized mechanoreceptors in C. elegans, PVD and FLP (Oren-Suissa et al., 2010). PVD dendrites of L4s and young adults show regenerative ability following dendrotomy (laser induced severing of dendrites). Our working hypothesis is that in older ages this ability to regenerate is compromised. Previous studies and our preliminary results indicate that PVD and FLP do not overlap in larval stages (Smith et al., 2010). In addition, dendrites within each bilateral PVD do not overlap through a self-avoidance mechanism (Smith et al., 2012). We found that (1) the coverage fields of the PVD and FLP overlap in adult worms, which indicates coexistence and not tiling. This overlap increases as the worm ages. (2) PVDs show aberrant arborization at the age of 9 days of adulthood. (3) Dramatic increase in self-avoidance defects as animals age. In humans many neurodegenerative diseases as well as generalized cognitive decline are associated with age, aberrant arborization or both (e.g. autism and Alzheimer's disease). However our understanding of how these disorders are triggered and aggravated is scarce. Our research provides an insight into the aging and regeneration process of individual neurons. Oren-Suissa, M., et al. (2010). Science 328, 1285-1288. Smith, C.J. et al. (2010). Developmental Biology 345, 18-33. Smith, C.J., et al. (2012). Nature Neuroscience 15, 731-737. Tank, E.M.H. et al. (2011). Journal of Neuroscience 31, 9279-9288.

Cassada RC et al. (1980) Worm Breeder's Gazette "initial characterization of ts embryonic defective (emb) mutants (Goettingen set)."

Culotti MR, Cassada RC, Von Ehrenstein G, Isnenghi E

[Worm Breeder's Gazette, 1980]

[See Figure 1] Already published allelism: Wood et al., 1980: b117=b189; b246 = let- 2.Miwa et al., 1980: hc57 = hc62; hc61 = hc67. Our global complementation results: g1 = g4; g16 = g65 = hc61 = hc67; g36 = hc65; g23 = g34 = hc70 = b117 = b189; g37 = b246 = let-2; b84 = hc66; g14 = g43; g57 = b1O. From frequency of multiple alleles we estimate 200-400 genes essential for embryogenesis. Mapping is in progress. We are also doing tsp's, R + H Tests, and cellular defects ( Isnenghi, Cassada, Radnia, Schierenberg, K. Smith, v. Ehrenstein).

Elizabeth B Rex et al. (2005) International Worm Meeting "Caenorhabditis elegans contains multiple tyramine receptors"

Elizabeth B Rex, Hong Xiao, Katy Smith, Richard W Komuniecki, Vera M Hapiak, Robert J Hobson

[International Worm Meeting, 2005]

Tyramine appears to regulate a number of key processes in nematodes, such as pharyngeal pumping, and more complex behaviors, such as foraging. Recently, we identified a Caenorhabditis elegans tyramine receptor, SER-2, that was involved in the TA-dependent regulation of these processes. In the present study, we have identified a second C. elegans gene, tyra-2 (F01E11.5) that also encodes a tyramine receptor. This is the first identification of multiple tyramine receptor genes in any invertebrate. Membranes from COS-7 cells expressing TYRA-2 bind [3H]-tyramine with high affinity with a Kd of 20 5 nM. Other physiologically relevant biogenic amines, such as octopamine and dopamine, inhibit [3H]-tyramine binding with much lower affinity (Kis of 1.55 0.5 and 1.78 0.6 mM, respectively), supporting the identification of TYRA-2 as a tyramine receptor. Indeed, tyramine also dramatically increases GTPS binding to membranes from cells expressing TYRA-2 (EC50 of 50 13 nM) and the TA-dependent GTPS binding is PTX-sensitive suggesting that TYRA-2 may couple to Gi/o. Based on fluorescence from tyr-2::gfp fusion constructs, TYRA-2 expression appears to be exclusively neuronal, in the MC and NSM pharyngeal neurons, the AS family of amphid neurons and neurons in the nerve ring, body and tail. Taken together, these results suggest that TYRA-2 encodes a second Gi/o-coupled tyramine receptor and suggests that TA-dependent neuromodulation may be mediated by multiple receptors and more complex than previously appreciated.

Pourkarimi, Ehsan et al. (2015) International Worm Meeting "Epigenetic program of DNA replication."

Whitehouse, Iestyn, Pourkarimi, Ehsan, Bellush, James

[International Worm Meeting, 2015]

In eukaryotes, multiple replication origins initiate DNA synthesis bidirectionally. Half of the genome is duplicated discontinuously on the lagging strand in the form of Okazaki Fragments (OFs). Previously we have purified and sequenced OFs from S. cerevisiae, and have demonstrated their utility in mapping genome wide DNA replication patterns (1,2). Despite many years of research, the precise location efficiency and abundance of replication origins in metazoa remains elusive. Here we capture and sequence OFs from C. elegans and generate a genome wide map of DNA replication.We use a DNA ligation compromised genetic background and purify single stranded OFs from developing embryos. Aligning sequence reads of OFs to the C. elegans genome reveals a characteristic strand bias at specific sites that are approximately 50-100 Kb apart. The complementary enrichment of Okazaki fragments to either the Watson or Crick strands is the hallmark of a replication origin. Additionally we have found that origins of replication in C. elegans are correlated with transcriptionally active regions of chromatin. Using the histone modification data set of modENCODE we found a strong association between replication start sites and acetylation of Histone H3 lysine 27 (H3K27ac). Acetylation of H3K27 is a chromatin mark characteristic of gene enhancer elements. Finally, we show that a partial depletion of CBP/P300 the sole histone H3 acetyltransferase (HAT) responsible for H3K27 acetylation has a profound effect on DNA replication. Our data indicate that the DNA replication program is likely plastic and is matched with the transcriptional program. Ultimately our data show, both DNA replication and gene transcription are likely regulated by similar epigenetic processes. 1. Intrinsic coupling of lagging-strand synthesis to chromatin assemblyDuncan J. Smith& Iestyn Whitehouse. Nature, 20122. Quantitative, genome-wide analysis of eukaryotic replication initiation and termination.McGuffee SR, Smith DJ, Whitehouse I. Mol Cell, 2013.

Bo S et al. (2019) J Theor Biol "Potential relations between post-spliced introns and mature mRNAs in the Caenorhabditis elegans genome."

Zhao X, Li H, Bao T, Zhang Q, Lu Z, Bo S

[J Theor Biol, 2019]

There are potential interactions between introns and their corresponding coding sequences (CDSs) in ribosomal protein genes that have been proposed by our group and the interactions are achieved by sequence matches between the two kinds of sequences. Here, the optimal matching relations between mature mRNAs and their corresponding introns in Caenorhabditis elegans (C.elegans) were investigated by improved Smith-Waterman local alignment software. Our results showed that the remarkably matched regions appear in the untranslated regions (UTRs) of mRNAs, especially in the 3' UTR. The optimal matched segments (OMSs) are highly organized segments. In addition, the optimal matching relations were analysed between mature mRNAs and other introns. The matching strengths in the UTRs are clearly lower than those in their corresponding introns. Our studies indicate that there are potential interactions between mature mRNAs and their corresponding introns and the post-spliced introns should have other novel functions in the gene expression process.

Cohn DH et al. (2003) Am J Hum Genet "Mental retardation and abnormal skeletal development (Dyggve-Melchior-Clausen dysplasia) due to mutations in a novel, evolutionarily conserved gene."

Ehtesham N, Shanske A, Cohn DH, Krakow D, Powell BR, Rimoin DL, Unger S, Reinker K

[Am J Hum Genet, 2003]

Dyggve-Melchior-Clausen dysplasia (DMC) and Smith-McCort dysplasia (SMC) are similar, rare autosomal recessive osteochondrodysplasias. The radiographic features and cartilage histology in DMC and SMC are identical. However, patients with DMC exhibit significant developmental delay and mental retardation, the major features that distinguish the two conditions. Linkage studies localized the SMC and DMC disease genes to chromosome 18q12-21.1, providing evidence suggesting that they are allelic disorders. Sequence analysis of the coding exons of the FLJ90130 gene, a highly evolutionarily conserved gene within the recombination interval defined in the linkage study, identified mutations in SMC and DMC patients. The affected individuals in two consanguinous DMC families were homozygous for a stop codon mutation and a frameshift mutation, respectively, demonstrating that DMC represents the FLJ90130-null phenotype. The data confirm the hypothesis that SMC and DMC are allelic disorders and identify a gene necessary for normal skeletal development and brain function.

Lee DG et al. (1997) International C. elegans Meeting "THE EXPRESSION PATTERN OF CALETICULIN, A HIGH AFFINITY CALCIUM BINDING PROTEIN"

Ahnn JH, Lee DG

[International C. elegans Meeting, 1997]

In C. elegans, a homologue of mammalian calreticulins was cloned and sequenced (M. Smith, DNA seq. 2: 235-40). This gene is composed of three exons and two introns and encodes a protein of 395 amino acid residues including an N-terminal signal sequence. The C-terminus contains an ER retention signal HDEL preceded by a polyacidic region similar to the mammalian calreticulins. Especially, the sequence displays 61% homology to mouse calreticulin, increasing up to 82% in the proline-rich region. This gene was designated as crt-1 and mapped to the left end of chromosome V of the physical map. To observe the expression pattern of calreticulin in some tissues of C. elegans, we are currently constructing a genomic clone fused with GFP reporter, which will be injected into an animal to obtain transgenic lines. At the same time, a cDNA clone obtained by PCR will be used for over expression in E. coli to produce antibodies.

Boateng R et al. (2018) Genetics "New Role for an Old Protein: An Educational Primer for Use with "The Identification of a Novel Mutant Allele of topoisomerase II in Caenorhabditis elegans Reveals a Unique Role in Chromosome Segregation During Spermatogenesis"."

Allen AK, Boateng R

[Genetics, 2018]

Modern experimental techniques, such as whole-genome sequencing and clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9 endogenous genome editing, are enabling researchers to identify and further characterize the roles of proteins that were previously thought of as well defined. In the December 2016 issue of GENETICS, an article by Jaramillo-Lambert et al. identified a new role for the enzyme topoisomerase II in Caenorhabditis elegans male meiosis. This Primer article is designed to provide essential background information on C. elegans spermatogenesis and the relevant scientific techniques that will assist students and instructors in their understanding and discussion of the related article.Related article in GENETICS: Jaramillo-Lambert, A., A. S. Fabritius A. S., T. J. Hansen T. J., H. E. Smith H. E., and A. Golden A., 2016The identification of a novel mutant allele of topoisomerase II in Caenorhabditis elegans reveals a unique role in chromosome segregation during spermatogenesis. Genetics204: 1407-1422.

Ehtesham N et al. (2002) Am J Hum Genet "Evidence that Smith-McCort dysplasia and Dyggve-Melchior-Clausen dysplasia are allelic disorders that result from mutations in a gene on chromosome 18q12."

Cohn DH, Shanske A, King LM, Unger S, Ehtesham N, Powell BR, Cantor RM, Rimoin DL, Reinker K

[Am J Hum Genet, 2002]

Smith-McCort dysplasia is a rare autosomal recessive osteochondrodysplasia characterized by short limbs and a short trunk with a barrel-shaped chest. The radiographic phenotype includes platyspondyly, generalized abnormalities of the epiphyses and metaphyses, and a distinctive lacy appearance of the iliac crest. We performed a genomewide scan in a consanguineous family from Guam and found evidence of linkage to loci on chromosome 18q12. Analysis of a second, smaller family was also consistent with linkage to this region, producing a maximum combined two-point LOD score of 3.04 at a recombination fraction of 0 for the marker at locus D18S450. A 10.7-cM region containing the disease gene was defined by recombination events in two affected individuals in the larger family. Furthermore, all affected children in the larger family were homozygous for a subset of marker loci within this region, defining a 1.5-cM interval likely to contain the defective gene. Analysis of three small, unrelated families with Dyggve-Melchior-Clausen syndrome, a radiographically identical disorder with the additional clinical finding of mental retardation, provided evidence of linkage to the same region, a result consistent with the hypothesis that the two disorders are allelic.