Roche presents major advances for its sequencing by expansion technology(1), including a new GUINNESS WORLD RECORD™, at the ASHG conference 2025
Roche (OTCQX:RHHBY) presented advances in its sequencing by expansion (SBX) technology at ASHG 2025, highlighting improvements across bulk RNA sequencing, methylation mapping, spatial analyses, and target enrichment.
Key developments include a GUINNESS WORLD RECORD™ by Broad Clinical Labs for fastest DNA sequencing (sample-to-VCF under four hours) achieved with Roche Sequencing Solutions and Boston Children’s Hospital, a new multi‑project evaluation with the Wellcome Sanger Institute, SBX‑Duplex combined with TAPS for methylation mapping, spatial sequencing at the University of Tokyo (≈15 billion reads in one hour), and a UMI‑based SBX‑Simplex target enrichment workflow.
Roche (OTCQX:RHHBY) ha presentato progressi nella sua tecnologia sequenziamento per espansione (SBX) all'ASHG 2025, evidenziando miglioramenti nello storico ampio della RNA sequencing, mappatura della metilazione, analisi spaziali e arricchimento mirato.
Gli sviluppi chiave includono un record mondiale GUINNESS WORLD RECORD™ da Broad Clinical Labs per lo sequenziamento del DNA più veloce (dal campione al VCF in meno di quattro ore) ottenuto con Roche Sequencing Solutions e il Boston Children’s Hospital, una nuova valutazione multi-progetto con il Wellcome Sanger Institute, SBX‑Duplex combinato con TAPS per la mappatura della metilazione, lo sequenziamento spaziale presso l'Università di Tokyo (≈15 miliardi di letture in un'ora), e un flusso di lavoro SBX‑Simplex di arricchimento mirato basato su UMI.
Roche (OTCQX:RHHBY) presentó avances en su tecnología de secuenciación por expansión (SBX) en ASHG 2025, destacando mejoras en la secuenciación masiva de ARN, mapeo de metilación, análisis espaciales y enriquecimiento de dianas.
Entre los desarrollos clave figura un GUINNESS WORLD RECORD™ por Broad Clinical Labs para la secuenciación de ADN más rápida (muestreo a VCF en menos de cuatro horas) logrado con Roche Sequencing Solutions y el Boston Children’s Hospital, una nueva evaluación multi-proyectos con el Wellcome Sanger Institute, SBX‑Duplex combinado con TAPS para mapeo de metilación, la secuenciación espacial en la Universidad de Tokio (≈15 mil millones de lecturas en una hora), y un flujo de enriquecimiento de dianas SBX‑Simplex basado en UMI.
로체(Roche)(OTCQX:RHHBY)는 ASHG 2025에서 확장 시퀀싱(SBX) 기술의 발전을 발표하며 대량 RNA 시퀀싱, 메틸화 매핑, 공간 분석 및 표적 강화의 개선을 강조했습니다.
주요 개발로는 Broad Clinical Labs가 가장 빠른 DNA 시퀀싱(샘플에서 VCF까지 4시간 이내)의 GUINNESS WORLD RECORD™를 로체 시퀀싱 솔루션즈와 보스턴 어린이 병원과 함께 달성했고, Wellcome Sanger Institute와의 다중 프로젝트 평가, SBX‑Duplex와 TAPS를 결합한 메틸화 매핑, 도쿄 대학의 공간 시퀀싱(≈한 시간에 150억 리드), 그리고 UMI 기반 SBX‑Simplex 표적 강화 워크플로우가 포함됩니다.
Roche (OTCQX:RHHBY) a présenté des avancées dans sa technologie séquençage par expansion (SBX) lors de l'ASHG 2025, mettant en évidence des progrès dans le séquençage bulk de l'ARN, la cartographie de la méthylation, les analyses spatiales et l'enrichissement des cibles.
Parmi les développements clés figure un GUINNESS WORLD RECORD™ par Broad Clinical Labs pour le séquençage d'ADN le plus rapide (du prélèvement au VCF en moins de quatre heures) réalisé avec Roche Sequencing Solutions et le Boston Children’s Hospital, une nouvelle évaluation multi-projets avec le Wellcome Sanger Institute, SBX‑Duplex combiné avec TAPS pour la cartographie de la méthylation, le séquençage spatial à l'Université de Tokyo (≈15 milliards de lectures en une heure), et un flux d'enrichissement cible SBX‑Simplex basé sur l'UMI.
Roche (OTCQX:RHHBY) präsentierte Fortschritte in seiner Sequenzierung durch Expansion (SBX)-Technologie auf der ASHG 2025 und hob Verbesserungen bei Bulk-RNA-Sequenzierung, Methylierungs-Mapping, räumlichen Analysen und Ziel-Enrichment hervor.
Zu den wichtigsten Entwicklungen gehört ein GUINNESS WORLD RECORD™ von Broad Clinical Labs für die schnellste DNA-Sequenzierung (Proben-zu-VCF unter vier Stunden) erreicht mit Roche Sequencing Solutions und dem Boston Children’s Hospital, eine neue Multi-Project-Evaluation mit dem Wellcome Sanger Institute, SBX‑Duplex kombiniert mit TAPS für Methylierungs-Mapping, räumliche Sequenzierung an der University of Tokyo (≈15 Milliarden Reads in einer Stunde) und ein UMI-basierter SBX‑Simplex Target-Enrichment-Workflow.
Roche (OTCQX:RHHBY) قدّمت تقدّمًا في تقنيتها التسلسل بالتوسع (SBX) في ASHG 2025، مع إبراز التحسّنات عبر التسلسل الضخم للـRNA، ورسم خريطة الميثلة، والتحليلات المكانية، وتكثيف الأهداف.
تشمل التطورات الرئيسية سجل جينيس العالمي GUINNESS WORLD RECORD™ من Broad Clinical Labs لأسرع تسلسل DNA (من العينة إلى VCF في أقل من أربع ساعات) المحقق بمساعدة Roche Sequencing Solutions وBoston Children’s Hospital، وتقييمًا جديدًا متعدد المشاريع مع Wellcome Sanger Institute، SBX‑Duplex مع TAPS لرسم خريطة الميثلة، والتسلسل المكاني في جامعة طوكيو (حوالي 15 مليار قراءة في ساعة واحدة)، وتدفق عمل SBX‑Simplex المعزز بالهدف القائم على UMIs.
Roche (OTCQX:RHHBY) 在 ASHG 2025 展示了其 扩增测序(SBX) 技术的进展,突出在大规模 RNA 测序、甲基化绘制、空间分析和靶向富集方面的改进。
主要进展包括 Broad Clinical Labs 在最快 DNA 测序(从样本到 VCF 不足四小时)方面创下的 GUINNESS WORLD RECORD™,由 Roche Sequencing Solutions 与 Boston Children’s Hospital 共同实现;与 Wellcome Sanger Institute 的新多项目评估;SBX‑Duplex 结合 TAPS 的甲基化绘制;东京大学的空间测序(约 一小时内 150 亿次读数);以及基于 UMI 的 SBX‑Simplex 靶向富集工作流。
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- Significant progress in bulk RNA sequencing, methylation mapping, multiomics integration, and spatial analyses unlocks research previously out of reach for traditional short read platforms.
- Leveraging Roche’s SBX technology, Broad Clinical Labs achieved the new GUINNESS WORLD RECORD™ for fastest DNA sequencing technique in under four hours, in collaboration with Roche Sequencing Solutions and Boston Children’s Hospital.
- Wellcome Sanger Institute joins a growing network of early collaborators using SBX technology, driving new insights in genomics research.
Basel, 16 October 2025 - Roche (SIX: RO, ROG; OTCQX: RHHBY) presented major updates on its innovative sequencing by expansion (SBX) technology at the American Society of Human Genetics (ASHG) 2025 Annual Meeting in Boston, USA. Following its recent unveiling, SBX is already being recognized by early evaluators in the sequencing community for its combination of speed, flexibility, and longer reads, which significantly expands research possibilities.
“These advances reflect the strong momentum behind our innovative sequencing technology and its potential to transform genomic research and clinical applications,” said Matt Sause, CEO of Roche Diagnostics. “By combining high throughput, speed and longer read lengths, the SBX technology has the potential to enable research and applications that were previously not feasible. Our collaborations with Broad Institute, the Wellcome Sanger Institute, and others, demonstrate the immense potential of the SBX technology to tackle some of biology’s biggest challenges.”
Breaking a GUINNESS WORLD RECORD™
The impact of the SBX technology was recognised when Broad Clinical Labs broke the GUINNESS WORLD RECORD™ for the fastest DNA sequencing technique to date, using a human genome processed from a DNA sample to a final variant call file (VCF) in less than four hours. This milestone, achieved in collaboration with Roche Sequencing Solutions and Boston Children’s Hospital, surpasses the previous benchmark of five hours and two minutes.
“Breaking the GUINNESS WORLD RECORD is a remarkable achievement,” said Mark Kokoris, inventor of the SBX chemistry and Head of SBX Technology at Roche. “The true impact lies in what this speed and accuracy mean for the scientific community and for deciphering complex diseases like cancer and neurodegenerative conditions.”
Growing collaborations
At ASHG 2025, Roche also announced a new collaboration with the Wellcome Sanger Institute, marking the start of a multi-project evaluation of SBX’s capabilities across a range of research applications. The Wellcome Sanger Institute is evaluating potential benefits from longer reads and very high throughput from the SBX technology for instance in Bulk RNA sequencing to explore previously undetectable features such as certain spliced Isoforms.
The Wellcome Sanger Institute partnership adds to existing collaborations that includes Hartwig Medical Foundation, Genentech, The University of Tokyo and others, as well as the Broad Institute where we previously announced a strategic collaboration to develop and pilot groundbreaking research applications.
Methylation mapping with SBX-Duplex
Roche has also made significant progress in methylation mapping – the process of identifying and analysing chemical modifications called methyl groups that are added to DNA. These modifications act like switches or dimmers, controlling whether genes are turned on, off, or somewhere in between. The research workflow combines SBX-Duplex, a methodology in which both strands of the target DNA are linked in a single read, with a high-fidelity methylation mapping method, TET-assisted pyridine borane sequencing (TAPS), a technology in development by Watchmaker Genomics.
This high efficiency intra-molecular consensus workflow can have significant advantages in research applications, including liquid biopsy-based cancer detection and identification of novel epigenetic biomarkers.
Spatial sequencing
At the University of Tokyo, researchers working in collaboration with Roche leveraged the speed and workflow adaptability of SBX in spatial sequencing analyses of banked lung cancer tissue with about 15 billion reads in just one hour. This approach allowed them to rapidly and accurately map gene expression within tissue samples at high resolution, providing critical insights into the dynamics of cells within a tumor microenvironment.
Target enrichment
Roche also demonstrated a target enrichment method using SBX-Simplex workflow that leverages Unique Molecular Identifiers (UMIs) to produce high throughput and high accuracy reads with very low inputs. This can potentially benefit Oncology research where high depth is typically required.
The above examples highlight SBX’s potential to support multiomics research at scale, by combining the power of rapid sequencing with the ability to analyse multiple layers of biological information. Such breakthroughs are redefining how researchers approach disease biology and interpret the interplay between genetics, transcriptional activity, and epigenomic changes.
About Roche
Founded in 1896 in Basel, Switzerland, as one of the first industrial manufacturers of branded medicines, Roche has grown into the world’s largest biotechnology company and the global leader in in-vitro diagnostics. The company pursues scientific excellence to discover and develop medicines and diagnostics for improving and saving the lives of people around the world. We are a pioneer in personalised healthcare and want to further transform how healthcare is delivered to have an even greater impact. To provide the best care for each person we partner with many stakeholders and combine our strengths in Diagnostics and Pharma with data insights from the clinical practice.
For over 125 years, sustainability has been an integral part of Roche’s business. As a science-driven company, our greatest contribution to society is developing innovative medicines and diagnostics that help people live healthier lives. Roche is committed to the Science Based Targets initiative and the Sustainable Markets Initiative to achieve net zero by 2045.
Genentech, in the United States, is a wholly owned member of the Roche Group. Roche is the majority shareholder in Chugai Pharmaceutical, Japan.
For more information, please visit www.roche.com.
All trademarks used or mentioned in this release are protected by law.
References
[1] The SBX technology and analysis tools are in development and not commercially available. The content of this material reflects current study results or design goals.
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