TY - JOUR T1 - Comprehensive annotation and characterization of planarian tRNA and tRNA-derived fragments (tRFs). JF - RNA Y1 - 2021 A1 - Lakshmanan, Vairavan A1 - T N, Sujith A1 - Bansal, Dhiru A1 - Padubidri, Shivaprasad V A1 - Palakodeti, Dasaradhi A1 - Krishna, Srikar AB -

tRNA-derived fragments (tRFs) have recently gained a lot of scientific interest due to their diverse regulatory roles in several cellular processes. However, their function in dynamic biological process such as development and regeneration remains unexplored. Here, we show that tRFs are dynamically expressed during planarian regeneration suggesting a possible role for these small RNAs in the regulation of regeneration. In order to characterise planarian tRFs, we first annotated 457 tRNAs in S.mediterranea combining two tRNA prediction algorithms. Annotation of tRNAs facilitated the identification of three main species of tRFs in planarians - the shorter tRF-5s and itRFs, and the abundantly expressed 5'-tsRNAs. Spatial profiling of tRFs in sequential transverse sections of planarians revealed diverse expression patterns of these small RNAs, including those that are enriched in the head and pharyngeal regions. Expression analysis of these tRF species revealed dynamic expression of these small RNAs over the course of regeneration suggesting an important role in planarian anterior and posterior regeneration. Finally, we show that 5'-tsRNA in planaria interact with all three SMEDWI proteins and an involvement of Ago1 in the processing of itRFs. In summary, our findings implicate a novel role for tRFs in planarian regeneration, highlighting their importance in regulating complex systemic processes. Our study adds to the catalogue of post-transcriptional regulatory systems in planarian, providing valuable insights on the biogenesis and the function of tRFs in neoblasts and planarian regeneration.

ER - TY - JOUR T1 - tRNA-derived fragments (tRFs): establishing their turf in post-transcriptional gene regulation. JF - Cell Mol Life Sci Y1 - 2021 A1 - Krishna, Srikar A1 - Raghavan, Srikala A1 - DasGupta, Ramanuj A1 - Palakodeti, Dasaradhi AB -

Transfer RNA (tRNA)-derived fragments (tRFs) are an emerging class of conserved small non-coding RNAs that play important roles in post-transcriptional gene regulation. High-throughput sequencing of multiple biological samples have identified heterogeneous species of tRFs with distinct functionalities. These small RNAs have garnered a lot of scientific attention due to their ubiquitous expression and versatility in regulating various biological processes. In this review, we highlight our current understanding of tRF biogenesis and their regulatory functions. We summarize the diverse modes of biogenesis through which tRFs are generated and discuss the mechanism through which different tRF species regulate gene expression and the biological implications. Finally, we conceptualize research areas that require focus to strengthen our understanding of the biogenesis and function of tRFs.

ER - TY - JOUR T1 - Dynamic expression of tRNA-derived small RNAs define cellular states. JF - EMBO Rep Y1 - 2019 A1 - Krishna, Srikar A1 - Yim, Daniel Gr A1 - Lakshmanan, Vairavan A1 - Tirumalai, Varsha A1 - Koh, Judice Ly A1 - Park, Jung Eun A1 - Cheong, Jit Kong A1 - Low, Joo Leng A1 - Lim, Michelle Js A1 - Sze, Siu Kwan A1 - Shivaprasad, Padubidri A1 - Gulyani, Akash A1 - Raghavan, Srikala A1 - Palakodeti, Dasaradhi A1 - DasGupta, Ramanuj AB -

Transfer RNA (tRNA)-derived small RNAs (tsRNAs) have recently emerged as important regulators of protein translation and shown to have diverse biological functions. However, the underlying cellular and molecular mechanisms of tsRNA function in the context of dynamic cell-state transitions remain unclear. Expression analysis of tsRNAs in distinct heterologous cell and tissue models of stem vs. differentiated states revealed a differentiation-dependent enrichment of 5'-tsRNAs. We report the identification of a set of 5'-tsRNAs that is upregulated in differentiating mouse embryonic stem cells (mESCs). Notably, interactome studies with differentially enriched 5'-tsRNAs revealed a switch in their association with "effector" RNPs and "target" mRNAs in different cell states. We demonstrate that specific 5'-tsRNAs can preferentially interact with the RNA-binding protein, Igf2bp1, in the RA-induced differentiated state. This association influences the transcript stability and thereby translation of the pluripotency-promoting factor, c-Myc, thus providing a mechanistic basis for how 5'-tsRNAs can modulate stem cell states in mESCs. Together our study highlights the role of 5'-tsRNAs in defining distinct cell states.

VL - 20 IS - 7 ER - TY - JOUR T1 - Post-transcriptional regulation in planarian stem cells. JF - Semin Cell Dev Biol Y1 - 2019 A1 - Krishna, Srikar A1 - Palakodeti, Dasaradhi A1 - Solana, Jordi AB -

Planarians are known for their immense regenerative abilities. A pluripotent stem cell population provides the cellular source for this process, as well as for the homeostatic cell turnover of the animals. These stem cells, known as neoblasts, present striking similarities at the morphological and molecular level to germ cells, but however, give rise to somatic tissue. Many RNA binding proteins known to be important for germ cell biology are also required for neoblast function, highlighting the importance of post-transcriptional regulation for stem cell control. Many of its aspects, including alternative splicing, alternative polyadenylation, translational control and mRNA deadenylation, as well as small RNAs such as microRNAs and piRNA are critical for stem cells. Their inhibition often abrogates both regeneration and cell turnover, resulting in lethality. Some of aspects of post-transcriptional regulation are conserved from planarian to mammalian stem cells.

VL - 87 ER - TY - JOUR T1 - Cytoplasmic poly (A)-binding protein critically regulates epidermal maintenance and turnover in the planarian . JF - Development Y1 - 2017 A1 - Bansal, Dhiru A1 - Kulkarni, Jahnavi A1 - Nadahalli, Kavana A1 - Lakshmanan, Vairavan A1 - Krishna, Srikar A1 - Sasidharan, Vidyanand A1 - Geo, Jini A1 - Dilipkumar, Shilpa A1 - Pasricha, Renu A1 - Gulyani, Akash A1 - Raghavan, Srikala A1 - Palakodeti, Dasaradhi KW - Animals KW - Cell Lineage KW - Cell Proliferation KW - Cytoplasm KW - Epidermis KW - Epithelium KW - Extracellular Matrix KW - Gene Knockdown Techniques KW - Homeostasis KW - Models, Biological KW - Planarians KW - Poly(A)-Binding Protein I KW - Regeneration KW - RNA, Messenger KW - Wound Healing AB -

Identifying key cellular events that facilitate stem cell function and tissue organization is crucial for understanding the process of regeneration. Planarians are powerful model system to study regeneration and stem cell (neoblast) function. Here, using planaria, we show that the initial events of regeneration, such as epithelialization and epidermal organization are critically regulated by a novel cytoplasmic poly A-binding protein, SMED-PABPC2. Knockdown leads to defects in epidermal lineage specification, disorganization of epidermis and ECM, and deregulated wound healing, resulting in the selective failure of neoblast proliferation near the wound region. Polysome profiling suggests that epidermal lineage transcripts, including , are translationally regulated by SMED-PABPC2 Together, our results uncover a novel role for SMED-PABPC2 in the maintenance of epidermal and ECM integrity, critical for wound healing and subsequent processes for regeneration.

VL - 144 IS - 17 ER - TY - JOUR T1 - Genome-Wide Analysis of Polyadenylation Events in Schmidtea mediterranea. JF - G3 (Bethesda) Y1 - 2016 A1 - Lakshmanan, Vairavan A1 - Bansal, Dhiru A1 - Kulkarni, Jahnavi A1 - Poduval, Deepak A1 - Krishna, Srikar A1 - Sasidharan, Vidyanand A1 - Anand, Praveen A1 - Seshasayee, Aswin A1 - Palakodeti, Dasaradhi KW - 3' Untranslated Regions KW - Animals KW - Computational Biology KW - Genome, Helminth KW - Genome-Wide Association Study KW - High-Throughput Nucleotide Sequencing KW - MicroRNAs KW - Molecular Sequence Annotation KW - Platyhelminths KW - Poly A KW - Polyadenylation KW - Reproducibility of Results KW - RNA Interference KW - RNA Processing, Post-Transcriptional KW - RNA, Messenger AB -

In eukaryotes, 3' untranslated regions (UTRs) play important roles in regulating posttranscriptional gene expression. The 3'UTR is defined by regulated cleavage/polyadenylation of the pre-mRNA. The advent of next-generation sequencing technology has now enabled us to identify these events on a genome-wide scale. In this study, we used poly(A)-position profiling by sequencing (3P-Seq) to capture all poly(A) sites across the genome of the freshwater planarian, Schmidtea mediterranea, an ideal model system for exploring the process of regeneration and stem cell function. We identified the 3'UTRs for ∼14,000 transcripts and thus improved the existing gene annotations. We found 97 transcripts, which are polyadenylated within an internal exon, resulting in the shrinking of the ORF and loss of a predicted protein domain. Around 40% of the transcripts in planaria were alternatively polyadenylated (ApA), resulting either in an altered 3'UTR or a change in coding sequence. We identified specific ApA transcript isoforms that were subjected to miRNA mediated gene regulation using degradome sequencing. In this study, we also confirmed a tissue-specific expression pattern for alternate polyadenylated transcripts. The insights from this study highlight the potential role of ApA in regulating the gene expression essential for planarian regeneration.

VL - 6 IS - 10 ER -