The genome sequence of the Cinnabar Moth, Tyria jacobaeae (Linnaeus, 1758) by Boyes, D, Sivell, O, Holland, PWH

“…We present a genome assembly from an individual male <i>Tyria jacobaeae</i> (the Cinnabar Moth; Arthropoda; Insecta; Lepidoptera; Erebidae). The genome sequence is 589.7 megabases in span. Most of the assembly is scaffolded into 31 chromosomal pseudomolecules, including the Z sex chromosome. …”

Are we ready for whole population genomic sequencing of asymptomatic newborns? by Vears, DF, Savulescu, J, Christodoulou, J, Wall, M, Newson, AJ

“…The introduction of genomic sequencing technologies into routine newborn screening programs in some form is not only inevitable but also already occurring in some settings. …”

The genome sequence of the White Satin, Leucoma salicis (Linnaeus, 1758) by Boyes, D, Holland, PWH

“…We present a genome assembly from an individual male <i>Leucoma salicis</i> (the White Satin; Arthropoda; Insecta; Lepidoptera; Erebidae). The genome sequence is 733.2 megabases in span. Most of the assembly is scaffolded into 30 chromosomal pseudomolecules, including the Z sex chromosome. …”

Genomic sequence of a calnexin homolog from Arabidopsis thaliana. by Boyce, J, Coates, D, Fricker, M, Evans, D

“…We have isolated a genomic sequence showing significant homology to the animal gene over the predicted coding sequence (Table I). …”

The minimum information about a genome sequence (MIGS) specification. by Field, D, Garrity, G, Gray, T, Morrison, N, Selengut, J, Sterk, P, Tatusova, T, Thomson, N, Allen, M, Angiuoli, S, Ashburner, M, Axelrod, N, Baldauf, S, Ballard, S, Boore, J, Cochrane, G, Cole, J, Dawyndt, P, De Vos, P, DePamphilis, C, Edwards, R, Faruque, N, Feldman, R, Gilbert, J, Gilna, P

“…Here, we introduce the minimum information about a genome sequence (MIGS) specification with the intent of promoting participation in its development and discussing the resources that will be required to develop improved mechanisms of metadata capture and exchange. …”

The genome sequence of the Pale Pinion, Lithophane socia (Hufnagel, 1766) by Boyes, D, Holland, PWH

“…We present a genome assembly from an individual male Lithophane socia (the Pale Pinion; Arthropoda; Insecta; Lepidoptera; Noctuidae). The genome sequence is 489.3 megabases in span. Most of the assembly is scaffolded into 31 chromosomal pseudomolecules, including the Z sex chromosome. …”

The genome sequence of the Brindled Pug, Eupithecia abbreviata (Stephens, 1831) by Boyes, D, Holland, PWH

“…We present a genome assembly from an individual female Eupithecia abbreviata (the Brindled Pug; Arthropoda; Insecta; Lepidoptera; Geometridae). The genome sequence is 383.4 megabases in span. Most of the assembly is scaffolded into 32 chromosomal pseudomolecules, including the assembled Z and W sex chromosomes. …”

Towards the genomic sequence code of DNA fragility for machine learning by Pflughaupt, P, Abdullah, A, Masuda, K, Sahakyan, A

“…Overall, this work offers novel insights into the genomic sequence basis of DNA fragility and presents a powerful machine learning resource to further enhance our understanding of genome (in)stability and evolution.…”

Whole-genome sequencing for predicting clarithromycin resistance in Mycobacterium abscessus by Lipworth, S, Hough, N, Leach, L, Morgan, M, Jeffery, K, Andersson, M, Robinson, E, Smith, EG, Crook, D, Peto, T, Walker, T

“…The recent introduction of routine whole-genome sequencing (WGS) as a replacement for existing reference techniques in England provides an opportunity to characterize the genetic determinants of resistance. …”

The genome sequence of Trypanosoma cruzi, etiologic agent of Chagas disease. by El-Sayed, N, Myler, P, Bartholomeu, D, Nilsson, D, Aggarwal, G, Tran, A, Ghedin, E, Worthey, E, Delcher, A, Blandin, G, Westenberger, S, Caler, E, Cerqueira, G, Branche, C, Haas, B, Anupama, A, Arner, E, Aslund, L, Attipoe, P, Bontempi, E, Bringaud, F, Burton, P, Cadag, E, Campbell, D, Carrington, M

“…Whole-genome sequencing of the protozoan pathogen Trypanosoma cruzi revealed that the diploid genome contains a predicted 22,570 proteins encoded by genes, of which 12,570 represent allelic pairs. …”

Prediction of Staphylococcus aureus antimicrobial resistance by whole-genome sequencing by Gordon, N, Price, JR, Cole, K, Everitt, R, Morgan, M, Finney, J, Kearns, A, Pichon, B, Young, B, Wilson, D, Llewelyn, M, Paul, J, Peto, T, Crook, D, Walker, A, Golubchik, T

“…Whole-genome sequencing (WGS) could potentially provide a single platform for extracting all the information required to predict an organism's phenotype. …”

Whole genome sequencing in the prevention and control of Staphylococcus aureus infection. by Price, JR, Didelot, X, Crook, D, Llewelyn, M, Paul, J

“…AIM: To outline the practicalities of whole genome sequencing and discuss how it might shape future infection control practice. …”

Complete Genome sequence of the nematicidal Bacillus thuringiensis MYBT18246 by Hollensteiner, J, Poehlein, A, Spröer, C, Bunk, B, Sheppard, AE, Rosentstiel, P, Schulenburg, H, Liesegang, H

“…Here we present the complete annotated genome sequence of the nematicidal B. thuringiensisstrain MYBT18246. …”

Draft genome sequence data of Streptomyces sp. FH025 by Goh, Lucky Poh Wah, Fauze Mahmud, Lee, Ping Chin

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Draft Genome Sequences of Five Novel Polyketide Synthetase-Containing Mouse by Shen, Zeli, Feng, Yan, Fox, James G, Mannion, Anthony, Garcia, Alexis

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Discovering differential genome sequence activity with interpretable and efficient deep learning by Hammelman, Jennifer, Gifford, David K

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In situ genome sequencing: genomic measurement at the convergence of structure and molecular identity by Reginato, Paul L.

“…ExGS indicates a scalable path toward in situ genome sequencing with near-complete genomic resolution. …”
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Complete genome sequence of Staphylococcus haemolyticus type strain SGAir0252 by Premkrishnan, Balakrishnan N. V., Junqueira, Ana Carolina M., Uchida, Akira, Purbojati, Rikky W., Houghton, James N. I., Chénard, Caroline, Wong, Anthony, Kolundžija, Sandra, Clare, Megan E., Kushwaha, Kavita K., Panicker, Deepa, Putra, Alexander, Gaultier, Nicolas E., Heinle, Cassie E., Vettath, Vineeth Kodengil, Drautz-Moses, Daniela I., Schuster, Stephan C.

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Scientific visualization of DNA sequence matching in large-scale genomics sequencing by Raina, Priyanka

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Effective graph-based algorithms for weak motif discovery in genomic sequences by Sun, Hequan

“…This thesis aims to improve weak motif discovery in genomic sequences. The task is of primary significance and urgency because motifs provide the basis for biologists to derive knowledge about gene functions. …”
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