Published January 31, 2022 | Version v1
Publication Open

TRANSCRIPTOME SEQUENCING OF LEPISANTHES FRUTICOSA TO DISCOVER SSR MARKERS

Creators

  • 1. Malaysian Agricultural Research and Development Institute
  • 2. National Institutes of Biotechnology Malaysia

Description

Lepisanthes fruticosa (ceri Terengganu) is one of the important underutilized fruit plants with high value of bioactive compounds and pharmacological properties. Current studies have focused mainly on the bioactive compounds which are essential for functional food and pharmaceutical applications. However, studies on the diversity and conservation of L. fruticosa are still scarce since genomic and genetic resources for this plant species are still lacking. In this study, RNA sequencing of L. fruticosa leaf was carried out using Illumina HiSeq to identify potential unigenes and simple sequence repeats (SSRs). A total of 52,657 unigenes were identified from about 91,043,356 million raw sequence reads. Mining of SSRs from these unigenes have predicted a total of 23,958 SSRs which was approximately 45.58% of total unigenes obtained. Dinucleotide repeats motif was the highest (21.48%) and the next were trinucleotide repeats motif (14.65%). A total of 4,620 SSRs ranging from 12 to 116 bp were selected for experimental validation. Bioinformatic analysis via GO and KEGG platforms showed that a total of 1,861 (40.28%) SSR-containing unigenes matched to Gene Ontology (GO) terminology and 48 biochemical pathways. The SSR-containing unigenes of L. fruticosa were involved in various cell functions and a majority of their functions were associated with purine and thiamine metabolism. In addition. A majority of SSR-containing unigenes were involved in organic and heterocylic compounds bindings, indicating an active event of biosynthesis process of secondary metabolites in L. fruticosa. SSR markers obtained from this study provides new genetic information that can be utilized to facilitate future characterization of L. fruticosa accessions at molecular levels.

⚠️ This is an automatic machine translation with an accuracy of 90-95%

Translated Description (Arabic)

Lepisanthes fruticosa (ceri Terengganu) هي واحدة من نباتات الفاكهة المهمة غير المستغلة بشكل كافٍ مع قيمة عالية من المركبات النشطة بيولوجيًا والخصائص الدوائية. ركزت الدراسات الحالية بشكل أساسي على المركبات النشطة بيولوجيًا والتي تعتبر ضرورية للتطبيقات الوظيفية للأغذية والأدوية. ومع ذلك، لا تزال الدراسات حول تنوع وحفظ L. fruticosa نادرة نظرًا لأن الموارد الجينية والوراثية لهذا النوع من النباتات لا تزال غير موجودة. في هذه الدراسة، تم إجراء تسلسل الحمض النووي الريبوزي لورقة L. fruticosa باستخدام Illumina HiSeq لتحديد المولدات الموحدة المحتملة وتكرارات التسلسل البسيطة (SSRs). تم تحديد ما مجموعه 52,657 مستوحد من حوالي 91,043,356 مليون قراءة متسلسلة خام. تنبأ تعدين SSRs من هذه unigenes بما مجموعه 23958 SSRs وهو ما يقرب من 45.58 ٪ من إجمالي unigenes التي تم الحصول عليها. كانت نسبة تكرار ثنائي النوكليوتيد هي الأعلى (21.48 ٪) والثانية كانت نسبة تكرار ثلاثي النوكليوتيد (14.65 ٪). تم اختيار ما مجموعه 4620 SSRs تتراوح من 12 إلى 116 نقطة أساس للتحقق التجريبي. أظهر التحليل المعلوماتي الحيوي عبر منصات GO و KEGG أن ما مجموعه 1.861 (40.28 ٪) من الوحدات التي تحتوي على SSR مطابقة لمصطلحات علم الوجود الجيني (GO) و 48 مسارًا كيميائيًا حيويًا. شاركت أحاديات L. fruticosa التي تحتوي على SSR في وظائف الخلايا المختلفة وارتبطت غالبية وظائفها باستقلاب البيورين والثيامين. بالإضافة إلى ذلك، شاركت غالبية الوحدات التي تحتوي على SSR في ربط المركبات العضوية وغير المتجانسة، مما يشير إلى حدث نشط لعملية التخليق الحيوي للأيضات الثانوية في L. fruticosa. توفر علامات SSR التي تم الحصول عليها من هذه الدراسة معلومات وراثية جديدة يمكن استخدامها لتسهيل التوصيف المستقبلي لضم L. fruticosa على المستويات الجزيئية.

Translated Description (English)

Lepisanthes fruticosa (ceri Terengganu) is one of the important underutilized fruit plants with high value of bioactive compounds and pharmacological properties. Current studies have focused mainly on the bioactive compounds which are essential for functional food and pharmaceutical applications. However, studies on the diversity and conservation of L. fruticosa are still scarce since genomic and genetic resources for this plant species are still lacking. In this study, RNA sequencing of L. fruticosa leaf was carried out using Illumina HiSeq to identify potential unigenes and simple sequence repeats (SSRs). A total of 52,657 unigenes were identified from about 91,043,356 million raw sequence reads. Mining of SSRs from these unigenes have predicted a total of 23,958 SSRs which was approximately 45.58% of total unigenes obtained. Dinucleotide repeats motif was the highest (21.48%) and the next were trinucleotide repeats motif (14.65%). A total of 4,620 SSRs ranging from 12 to 116 bp were selected for experimental validation. Bioinformatic analysis via GO and KEGG platforms showed that a total of 1.861 (40.28%) SSR-containing unigenes matched to Gene Ontology (GO) terminology and 48 biochemical pathways. The SSR-containing unigenes of L. fruticosa were involved in various cell functions and a majority of their functions were associated with purine and thiamine metabolism. In addition, a majority of SSR-containing unigenes were involved in organic and heterocylic compounds binding, indicating an active event of biosynthesis process of secondary metabolites in L. fruticosa. SSR markers obtained from this study provides new genetic information that can be utilized to facilitate future characterization of L. fruticosa accessions at molecular levels.

Translated Description (French)

Lepisanthes fruticosa (ceri Terengganu) is one of the important underutilized fruit plants with high value of bioactive compounds and pharmacological properties. Les études actuelles ont principalement porté sur les composés bioactifs qui sont essentiels pour les applications alimentaires et pharmaceutiques fonctionnelles. However, studies on the diversity and conservation of L. fruticosa are still scarce since genomic and genetic resources for this plant species are still lacking. Dans cette étude, le séquençage de l'ARN de la feuille de L. fruticosa a été effectué en utilisant Illumina HiSeq pour identifier les répétitions de séquence potentielles et simples (SSR). A total of 52,657 unigenes were identified from about 91,043,356 million raw sequence reads. Mining of SSRs from these unigenes have predicted a total of 23,958 SSRs which was approximately 45.58% of total unigenes obtained. Dinucleotide repeats motif was the highest (21,48 %) and the next were trinucleotide repeats motif (14,65 %). A total of 4,620 SSRs ranging from 12 to 116 bp were selected for experimental validation. L'analyse bioinformatique via GO and KEGG platforms showed that a total of 1,861 (40.28%) SSR-containing unigenes matched to Gene Ontology (GO) terminology and 48 biochemical pathways. Le SSR-containing unigenes of L. fruticosa were involved in various cell functions and a majority of their functions were associated with purine and thiamine metabolism. En outre, une majorité de SSR-containing unigenes were involved in organic and heterocylic compounds bindings, indicating an active event of biosynthesis process of secondary metabolites in L. fruticosa. SSR markers obtained from this study provides new genetic information that can be utilized to facilitate future characterization of L. fruticosa accessions at molecular levels.

Translated Description (Spanish)

Lepisanthes fruticosa (ceri Terengganu) es una de las plantas de frutas más importantes con alto valor de compuestos bioactivos y propiedades farmacéuticas. Current studies have focused mainly on the bioactive compounds which are essential for functional food and pharmaceutical applications. However, studies on the diversity and conservation of L. fruticosa are still scarce since genomic and genetic resources for this plant species are still lacking. In this study, RNA sequencing of L. fruticosa leaf was carried out using Illumina HiSeq to identify potential unigenes and simple sequence repeats (SSRs). A total of 52,657 unigenes were identified from about 91,043,356 million raw sequence reads. Mining of SSRs from these unigenes have predicted a total of 23,958 SSRs which was approximately 45.58% of total unigenes obtained. Dinucleótidos repetidos motif was the highest (21,48%) and the next were trinucleótidos repeats motif (14,65%). A total of 4,620 SSRs ranging from 12 to 116 bp were selected for experimental validation. El análisis bioinformático a través de las plataformas GO y KEGG mostró que un total de 1,861 (40,28%) SSR-contienen coincidencias propias con la terminología de Gene Ontology (GO) y 48 vías bioquímicas. The SSR-containing unigenes of L. fruticosa were involved in various cell functions and a majority of their functions were associated with purine and thiamine metabolism. In addition. A majority of SSR-containing unigenes were involved in organic and heterocylic compounds bindings, indicating an active event of biosynthesis process of secondary metabolites in L. fruticosa. SSR markers obtained from this study provides new genetic information that can be utilized to facilitate future characterization of L. fruticosa accessions at molecular levels.

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Additional details

Additional titles

Translated title (Arabic)
التسلسل النسخي لـ lepisanthes FRUTICOSA لاكتشاف علامات SSR
Translated title (English)
TRANSCRIPTOMIC SEQUENCING OF LEPISANTHES FRUTICOSA TO DISCOVER SSR MARKERS
Translated title (French)
TRANSCRIPTOME SEQUENCING OF LEPISANTHES FRUTICOSA TO DISCOVER SSR MARKERS
Translated title (Spanish)
TRANSCRIPTOME SECUENCING OF LEPISANTHES FRUTICOSA TO DISCOVER SSR MARKERS

Identifiers

Other
https://openalex.org/W4210817052
DOI
10.29121/granthaalayah.v10.i1.2022.4451

Is supplement to
https://openalex.org/W4387948744 (Other)
https://openalex.org/W3089173564 (Other)
https://openalex.org/W2366524928 (Other)
https://openalex.org/W2352732738 (Other)
https://openalex.org/W2352675633 (Other)
https://openalex.org/W2297026197 (Other)
https://openalex.org/W2123060905 (Other)
https://openalex.org/W1964572291 (Other)
https://openalex.org/W184793361 (Other)
https://openalex.org/W1021674602 (Other)

GreSIS Basics Section

Is Global South Knowledge
Yes
Country
Malaysia

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