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Showing below up to 500 results in range #501 to #1,000.

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501. (hist) ‎Short read nucleotide sequence mapping algorithms ‎[271 bytes]
502. (hist) ‎How come Bowhead whale life long and confer cancer resistance? ‎[272 bytes]
503. (hist) ‎The second Korean pesonal genome was sequenced by a Korean team and analyzed by US researchers ‎[273 bytes]
504. (hist) ‎Yoonyoung Lee ‎[273 bytes]
505. (hist) ‎2018 Genomics Students Folder ‎[273 bytes]
506. (hist) ‎DNA reads ‎[274 bytes]
507. (hist) ‎Lee Kyoungjun/Self study ‎[274 bytes]
508. (hist) ‎Active Learning and self Teaching ‎[274 bytes]
509. (hist) ‎BGI ‎[275 bytes]
510. (hist) ‎Genomics Organization ‎[276 bytes]
511. (hist) ‎Biomatics ‎[277 bytes]
512. (hist) ‎Genome Foundation ‎[277 bytes]
513. (hist) ‎Cow genome ‎[278 bytes]
514. (hist) ‎Achieving my goal by taking genomics course - Code : KSI0026 ‎[279 bytes]
515. (hist) ‎Dabeen Park/Matlab ‎[281 bytes]
516. (hist) ‎What is difference between genomics and genetics ‎[282 bytes]
517. (hist) ‎Affymax Research Institute ‎[283 bytes]
518. (hist) ‎Bipolar disorder ‎[283 bytes]
519. (hist) ‎6.3 Class ‎[284 bytes]
520. (hist) ‎Diagnomics ‎[286 bytes]
521. (hist) ‎Reg2Hex ‎[286 bytes]
522. (hist) ‎Human Genomics ‎[287 bytes]
523. (hist) ‎My personal presentation ‎[287 bytes]
524. (hist) ‎Dog genome ‎[288 bytes]
525. (hist) ‎Oncogenomics ‎[290 bytes]
526. (hist) ‎What is the DNA sequencing process? ‎[290 bytes]
527. (hist) ‎Genome Research ‎[291 bytes]
528. (hist) ‎Insect genome ‎[294 bytes]
529. (hist) ‎Pick 5 protein sequences and predict their secondary structures using available prediction programs by MJ ‎[295 bytes]
530. (hist) ‎What is alignment? ‎[296 bytes]
531. (hist) ‎Pathway Genomics ‎[297 bytes]
532. (hist) ‎Lecture note and Summary ‎[297 bytes]
533. (hist) ‎Soybean genomics ‎[299 bytes]
534. (hist) ‎5.20 ‎[299 bytes]
535. (hist) ‎20131571 조우빈 ‎[299 bytes]
536. (hist) ‎Ecogenomics ‎[301 bytes]
537. (hist) ‎Environe ‎[302 bytes]
538. (hist) ‎Bioinformatics Wiki Site ‎[307 bytes]
539. (hist) ‎RNA expression ‎[307 bytes]
540. (hist) ‎How to learn from Jong Bhak? ‎[307 bytes]
541. (hist) ‎3. Metagenomics: novel way for collective analysis of microbial genomes and one of its applications microbial biosensor ‎[309 bytes]
542. (hist) ‎Dinosaurus genome project ‎[310 bytes]
543. (hist) ‎5.19 ‎[312 bytes]
544. (hist) ‎Introduction to programming ‎[312 bytes]
545. (hist) ‎Oncomics YY ‎[315 bytes]
546. (hist) ‎2016 Omics ‎[319 bytes]
547. (hist) ‎Genomic medicine ‎[320 bytes]
548. (hist) ‎Yunseok Han ‎[320 bytes]
549. (hist) ‎My questions about genomics ‎[320 bytes]
550. (hist) ‎Wonwoo Jeong ‎[322 bytes]
551. (hist) ‎Omics Students Folder ‎[322 bytes]
552. (hist) ‎Class talking & question ‎[322 bytes]
553. (hist) ‎Dayoung Kim ‎[322 bytes]
554. (hist) ‎NcRNA ‎[323 bytes]
555. (hist) ‎Open Gene Access ‎[325 bytes]
556. (hist) ‎The first African Genome ‎[325 bytes]
557. (hist) ‎Sophia Smithe ‎[326 bytes]
558. (hist) ‎Assignment-KHW ‎[327 bytes]
559. (hist) ‎Nanoball sequencing ‎[327 bytes]
560. (hist) ‎BioPipelines ‎[328 bytes]
561. (hist) ‎Koreans can usually digest more carbohydrates than other countries people ‎[328 bytes]
562. (hist) ‎Tiger Genome ‎[329 bytes]
563. (hist) ‎Ji-Hoon Kim ‎[329 bytes]
564. (hist) ‎Linux for running Bioinformatics ‎[331 bytes]
565. (hist) ‎Sanzhar Aitbay ‎[331 bytes]
566. (hist) ‎HW2 0513 by DY ‎[335 bytes]
567. (hist) ‎Genomics.org ‎[336 bytes]
568. (hist) ‎Free genome project FAQ ‎[337 bytes]
569. (hist) ‎Week 2/Genomics 2016/Yoon Changhan ‎[337 bytes]
570. (hist) ‎Homework -YJ code: 189734 ‎[337 bytes]
571. (hist) ‎Discussions and Videos ‎[337 bytes]
572. (hist) ‎What is DNA sequencing? ‎[339 bytes]
573. (hist) ‎Homework 1 of week 1 -YJ code:309ir ‎[340 bytes]
574. (hist) ‎Neanderthal genome sequeced by MPI Germany and Roche ‎[342 bytes]
575. (hist) ‎Evaluation by Dr.Jong ‎[342 bytes]
576. (hist) ‎Teams are asked to present what you have found ‎[343 bytes]
577. (hist) ‎Lecture & Self-study by MJ 20180427 ‎[343 bytes]
578. (hist) ‎Week 5/Genomics 2016/Yoon Changhan ‎[344 bytes]
579. (hist) ‎Genomics course 2015 UNIST Students Folder ‎[347 bytes]
580. (hist) ‎Youngkwang Jung - bioinformatics ‎[347 bytes]
581. (hist) ‎Close but distinct species genomics ‎[348 bytes]
582. (hist) ‎Statistics for Genomic Data Science ‎[350 bytes]
583. (hist) ‎Scientific Background ‎[352 bytes]
584. (hist) ‎Pangenomics ‎[354 bytes]
585. (hist) ‎Others in lecture ‎[354 bytes]
586. (hist) ‎Madina Seidualy ‎[355 bytes]
587. (hist) ‎1. Homework ‎[356 bytes]
588. (hist) ‎KA-UL KIM ‎[358 bytes]
589. (hist) ‎Genome 10K ‎[361 bytes]
590. (hist) ‎Genomics by MJ 20180507 ‎[361 bytes]
591. (hist) ‎Geromics Course Students Folder 2024 YoungMinBhak ‎[363 bytes]
592. (hist) ‎Defining 30 Genomics-related words ‎[364 bytes]
593. (hist) ‎Seung won lee ‎[365 bytes]
594. (hist) ‎Geromics Lecture related links: telomeres ‎[366 bytes]
595. (hist) ‎+ Open and re-write one FASTA file containing one protein sequence of TERT ‎[366 bytes]
596. (hist) ‎The first public female genome, Rosalynn Gill's was released ‎[367 bytes]
597. (hist) ‎Phene ‎[367 bytes]
598. (hist) ‎The first public female genome, Rosalynn Gill's was released ‎[367 bytes]
599. (hist) ‎Stanford Genomics Resources ‎[368 bytes]
600. (hist) ‎FASTA ‎[368 bytes]
601. (hist) ‎Weekly Biopedia Principles of Bioinformatics ‎[370 bytes]
602. (hist) ‎Proteome ‎[371 bytes]
603. (hist) ‎Minsu Kim/python/Rosalind / b2 ‎[372 bytes]
604. (hist) ‎Students folder ‎[373 bytes]
605. (hist) ‎Class review ‎[373 bytes]
606. (hist) ‎Jihoon moon 20141215 ‎[373 bytes]
607. (hist) ‎BioComputing ‎[374 bytes]
608. (hist) ‎BLAST ‎[374 bytes]
609. (hist) ‎The first Korean Genome Sequence analysis ‎[375 bytes]
610. (hist) ‎Extract a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL and print it out in a file by MJ ‎[376 bytes]
611. (hist) ‎External links ‎[377 bytes]
612. (hist) ‎Aging gene list by students ‎[377 bytes]
613. (hist) ‎Jungsu Shin ‎[378 bytes]
614. (hist) ‎Minsu Kim/python ‎[378 bytes]
615. (hist) ‎Genomics Class, 180507 ‎[378 bytes]
616. (hist) ‎Self-study & Lecture note ‎[381 bytes]
617. (hist) ‎Minsu Kim/python/Rosalind / b3 ‎[386 bytes]
618. (hist) ‎A. Install and Learn BioPerl ‎[387 bytes]
619. (hist) ‎My presentation ‎[390 bytes]
620. (hist) ‎Evaluation of students ‎[391 bytes]
621. (hist) ‎Genome sequencing and genomics ‎[392 bytes]
622. (hist) ‎Description of Omics course ‎[393 bytes]
623. (hist) ‎Fully sequenced human genomes ‎[395 bytes]
624. (hist) ‎Jae Gyoung Lee ‎[395 bytes]
625. (hist) ‎Others ‎[398 bytes]
626. (hist) ‎JaeYun Hyun 20121583 ‎[398 bytes]
627. (hist) ‎Visualizing your genome ‎[399 bytes]
628. (hist) ‎Who maintains Genomics.org? ‎[399 bytes]
629. (hist) ‎Who are the founders of Genomics.org? ‎[401 bytes]
630. (hist) ‎Weekly Biopedia Epigenomics, Phenomics and Enviromics ‎[405 bytes]
631. (hist) ‎Minwoo Wie ‎[405 bytes]
632. (hist) ‎Free genomes ‎[406 bytes]
633. (hist) ‎The first fully public female human genome: Rosalyn Gill ‎[406 bytes]
634. (hist) ‎5.27.2016 ‎[408 bytes]
635. (hist) ‎Genome sequencing is not Genomics ‎[413 bytes]
636. (hist) ‎Www.genericmedicationonline.com ‎[415 bytes]
637. (hist) ‎Genotype information ‎[418 bytes]
638. (hist) ‎Weekly Biopedia Canceromics and Geromics ‎[420 bytes]
639. (hist) ‎The human genome project ‎[422 bytes]
640. (hist) ‎Course topic essays ‎[423 bytes]
641. (hist) ‎5/13 ask ‎[425 bytes]
642. (hist) ‎Weekly Biopedia : week 2 / BYJ ‎[428 bytes]
643. (hist) ‎Date Palm Genome ‎[429 bytes]
644. (hist) ‎Structure of 20 amino acids ‎[429 bytes]
645. (hist) ‎In my definition ‎[429 bytes]
646. (hist) ‎Coding&other homework ‎[429 bytes]
647. (hist) ‎+ Pick 5 protein sequences and predict their secondary structures using available prediction programs ‎[430 bytes]
648. (hist) ‎The first Korean Genome Sequence ‎[431 bytes]
649. (hist) ‎Agy Therapeutics ‎[432 bytes]
650. (hist) ‎Associatome ‎[434 bytes]
651. (hist) ‎Korean Genome Project ‎[435 bytes]
652. (hist) ‎Weekly Biopedia Trancriptomics ‎[438 bytes]
653. (hist) ‎Geromics: Stem cell exhaustion ‎[438 bytes]
654. (hist) ‎2016.5.13 ‎[440 bytes]
655. (hist) ‎Open and re-write one FASTA file containing one protein sequence of TERT by MJ ‎[440 bytes]
656. (hist) ‎How to use NCBI database to construct a protein sequence ‎[443 bytes]
657. (hist) ‎The first yeast genome ‎[445 bytes]
658. (hist) ‎Genome size ‎[447 bytes]
659. (hist) ‎Self Evaluation Kim Jeong-A ‎[448 bytes]
660. (hist) ‎Homework 5. Extract a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL and print it out in a file ‎[448 bytes]
661. (hist) ‎Dabeen Park/C ‎[448 bytes]
662. (hist) ‎Microbial genomics ‎[449 bytes]
663. (hist) ‎University of Colorado gets funds for genome sequencing from the government ‎[450 bytes]
664. (hist) ‎BGI Purchases an Additional 12 Illumina Genome Analyzers ‎[450 bytes]
665. (hist) ‎The first fully public female human genome: Rosalynn Gill ‎[450 bytes]
666. (hist) ‎Poly A ‎[450 bytes]
667. (hist) ‎3. Arrays ‎[450 bytes]
668. (hist) ‎Poster and Report ‎[451 bytes]
669. (hist) ‎MRNAs ‎[452 bytes]
670. (hist) ‎JS Homework ‎[452 bytes]
671. (hist) ‎Craig Venter's genome ‎[453 bytes]
672. (hist) ‎3) Re-writing a FASTA file containing one protein sequence of TERT ‎[457 bytes]
673. (hist) ‎Nanogenomics ‎[460 bytes]
674. (hist) ‎Changshin Park ‎[460 bytes]
675. (hist) ‎Figure out the L-form of the amino acid ‎[460 bytes]
676. (hist) ‎Public lecture resource ‎[462 bytes]
677. (hist) ‎Azign Biosciences ‎[463 bytes]
678. (hist) ‎Lecture Note ‎[463 bytes]
679. (hist) ‎Eui-Jin Park ‎[463 bytes]
680. (hist) ‎How to contribute to Genomics.org? ‎[465 bytes]
681. (hist) ‎20131116 Youyoung Kim ‎[465 bytes]
682. (hist) ‎What is DNA? ‎[466 bytes]
683. (hist) ‎Genomcis impact on economy ‎[467 bytes]
684. (hist) ‎2016.06.03 ‎[467 bytes]
685. (hist) ‎Essay list ‎[467 bytes]
686. (hist) ‎Genome Structure ‎[469 bytes]
687. (hist) ‎Homework 3. Open and re-write one FASTA file containing one protein sequence of TERT ‎[469 bytes]
688. (hist) ‎GET conference Boston by PGP ‎[471 bytes]
689. (hist) ‎Interesting things in your Genome ‎[473 bytes]
690. (hist) ‎Genome Biology ‎[476 bytes]
691. (hist) ‎Convert DNA sequence into amino acid sequence by using perl ‎[476 bytes]
692. (hist) ‎Genomics Issues and Problems ‎[477 bytes]
693. (hist) ‎Wikipage ‎[481 bytes]
694. (hist) ‎DNA sequencing data and organization ‎[482 bytes]
695. (hist) ‎What is life? ‎[483 bytes]
696. (hist) ‎Dr. Ban Doohee lab in Yeonsei University Korea ‎[485 bytes]
697. (hist) ‎Public genomics ‎[486 bytes]
698. (hist) ‎Minsu Kim/python/Rosalind /problem6 ‎[486 bytes]
699. (hist) ‎Chaeeun Lee ‎[487 bytes]
700. (hist) ‎Ppt ‎[490 bytes]
701. (hist) ‎Genomics as the environment monitoring technology ‎[492 bytes]
702. (hist) ‎Genomic Democracy ‎[496 bytes]
703. (hist) ‎Seongwan Park ‎[498 bytes]
704. (hist) ‎3. Pick 5 protein sequences and predict their secondary structures using available prediction programs -YJ code:309ir ‎[498 bytes]
705. (hist) ‎Storing your genome in you PC ‎[499 bytes]
706. (hist) ‎Gene ‎[501 bytes]
707. (hist) ‎1ake ‎[501 bytes]
708. (hist) ‎Full Genomics ‎[502 bytes]
709. (hist) ‎What is BioLecture ‎[502 bytes]
710. (hist) ‎Madina Seidualy 20132023 ‎[503 bytes]
711. (hist) ‎KSH 0608 Bioinformatics with Bioperl ‎[504 bytes]
712. (hist) ‎BOAT algorithm ‎[506 bytes]
713. (hist) ‎Weekly Biopedia Proteomics ‎[506 bytes]
714. (hist) ‎5.27 Class ‎[508 bytes]
715. (hist) ‎2016 Genomics Students Folder ‎[508 bytes]
716. (hist) ‎Bioinformatics Book by Jong Bhak ‎[509 bytes]
717. (hist) ‎JS Homework3 ‎[510 bytes]
718. (hist) ‎1brn ‎[510 bytes]
719. (hist) ‎Randomseq code 1 ‎[514 bytes]
720. (hist) ‎Homework for Genomics-SJH ‎[517 bytes]
721. (hist) ‎Homework 0 ‎[517 bytes]
722. (hist) ‎Genomics News Links ‎[519 bytes]
723. (hist) ‎BioOS ‎[519 bytes]
724. (hist) ‎Kim Jeong-A ‎[519 bytes]
725. (hist) ‎BMC Medical Genomics ‎[521 bytes]
726. (hist) ‎JeongEun Kim ‎[522 bytes]
727. (hist) ‎Interactomics ‎[525 bytes]
728. (hist) ‎Genomics course homework ‎[527 bytes]
729. (hist) ‎Minsu Kim/python/Rosalind / problem3 ‎[527 bytes]
730. (hist) ‎Possible genomic diseases of you ‎[529 bytes]
731. (hist) ‎2ara ‎[532 bytes]
732. (hist) ‎2) Pick 5 protein sequences and predict their secondary structures using available prediction programs YS ‎[534 bytes]
733. (hist) ‎HWs of 5.13.2016 ‎[535 bytes]
734. (hist) ‎Minsu Kim / CRISPR cas9 ‎[535 bytes]
735. (hist) ‎5.13.2016 ‎[536 bytes]
736. (hist) ‎Jihwan Jeon ‎[537 bytes]
737. (hist) ‎Koreans launched family genome project ‎[538 bytes]
738. (hist) ‎Interleukin-2 ‎[538 bytes]
739. (hist) ‎20131336 Homework ‎[540 bytes]
740. (hist) ‎Articles ‎[540 bytes]
741. (hist) ‎Mitochondriomics ‎[545 bytes]
742. (hist) ‎Anopheles gambiae ‎[546 bytes]
743. (hist) ‎Chromatin ‎[547 bytes]
744. (hist) ‎Caucasian Genome Sequencing Project ‎[549 bytes]
745. (hist) ‎Jimin Baek ‎[550 bytes]
746. (hist) ‎BMC Genomics ‎[553 bytes]
747. (hist) ‎Codon ‎[553 bytes]
748. (hist) ‎Picogram ‎[554 bytes]
749. (hist) ‎Family ‎[554 bytes]
750. (hist) ‎Articles WAT&Obesity ‎[555 bytes]
751. (hist) ‎Eunjin RYU ‎[558 bytes]
752. (hist) ‎The first Indian genome ‎[560 bytes]
753. (hist) ‎Bioinformatics course 2017 UNIST Students Folder ‎[560 bytes]
754. (hist) ‎20-amino acid structure-OG ‎[561 bytes]
755. (hist) ‎Interferon-gamma ‎[564 bytes]
756. (hist) ‎Proteomics Class ‎[566 bytes]
757. (hist) ‎Genome Wish ‎[567 bytes]
758. (hist) ‎KEGG ‎[569 bytes]
759. (hist) ‎Reference in the bioinformatics class ‎[573 bytes]
760. (hist) ‎4ake ‎[576 bytes]
761. (hist) ‎Epigenomics class 20180601 ‎[576 bytes]
762. (hist) ‎Qustion History of DY ‎[577 bytes]
763. (hist) ‎Geromics Course Students Folder 2023 ‎[580 bytes]
764. (hist) ‎Assignment 01 / 2016 05 13 ‎[582 bytes]
765. (hist) ‎Chapter 2 - Getting started with Perl ‎[582 bytes]
766. (hist) ‎Yoon Changhan ‎[585 bytes]
767. (hist) ‎Melon Genome Map was publicized by US researchers ‎[586 bytes]
768. (hist) ‎DNA Sequencing alignment ‎[586 bytes]
769. (hist) ‎Korean Genomics ‎[590 bytes]
770. (hist) ‎Lee seung won ‎[590 bytes]
771. (hist) ‎Genomics Organizations and Alliances ‎[593 bytes]
772. (hist) ‎Fully sequenced female human genome ‎[593 bytes]
773. (hist) ‎Genomics version 2.0 ‎[594 bytes]
774. (hist) ‎Daphnia Genomics Consortium (DGC) ‎[594 bytes]
775. (hist) ‎Sequencing technology ‎[597 bytes]
776. (hist) ‎Genomics People ‎[599 bytes]
777. (hist) ‎20130822 SKT, Korea ‎[601 bytes]
778. (hist) ‎Genomics course ‎[603 bytes]
779. (hist) ‎RESOURCES ‎[605 bytes]
780. (hist) ‎Genome visualization programs ‎[609 bytes]
781. (hist) ‎NANOPORE ‎[612 bytes]
782. (hist) ‎PACBIO ‎[615 bytes]
783. (hist) ‎Genomics Programs ‎[617 bytes]
784. (hist) ‎Everyone has the right to know one's own genome information by birth ‎[617 bytes]
785. (hist) ‎Personal Genomics Institute established ‎[617 bytes]
786. (hist) ‎Dabeen Park/Matlab/MRI ‎[620 bytes]
787. (hist) ‎DNA methylation ‎[623 bytes]
788. (hist) ‎Genomics lecture movies ‎[626 bytes]
789. (hist) ‎Ethnically relevant consensus Korean reference genome towards personal reference genomes ‎[626 bytes]
790. (hist) ‎Principles of Bioinformatics 180427 ‎[628 bytes]
791. (hist) ‎Principles of Bioinformatics by MJ 20180427 ‎[628 bytes]
792. (hist) ‎HW2 ‎[630 bytes]
793. (hist) ‎Proteome - CSH ‎[632 bytes]
794. (hist) ‎Weekly Biopedia ‎[633 bytes]
795. (hist) ‎2016 genomics student folder ‎[633 bytes]
796. (hist) ‎DNA plus ‎[641 bytes]
797. (hist) ‎B7 ‎[641 bytes]
798. (hist) ‎Biorxiv ‎[641 bytes]
799. (hist) ‎Short Self Introduction ‎[655 bytes]
800. (hist) ‎Minsu Kim/python/Rosalind / b1 ‎[657 bytes]
801. (hist) ‎MySQL Programming homework by Ko Minjeong 20180504 ‎[659 bytes]
802. (hist) ‎PD-1 ‎[662 bytes]
803. (hist) ‎2. Define 20 most important words in my life ‎[662 bytes]
804. (hist) ‎The principle of universal genome ‎[670 bytes]
805. (hist) ‎Equinome ‎[671 bytes]
806. (hist) ‎2. Print 'Hello World!' ‎[674 bytes]
807. (hist) ‎Print 'Hello World!' ‎[674 bytes]
808. (hist) ‎MySQL Programming homework by MJ 20180504 ‎[675 bytes]
809. (hist) ‎What is a genome? ‎[679 bytes]
810. (hist) ‎Assignment 04 - Why Korean students are so quiet? ‎[683 bytes]
811. (hist) ‎Assignment 01 - Amino Acids & Triplet Codes ‎[685 bytes]
812. (hist) ‎Ttest-perl ‎[685 bytes]
813. (hist) ‎SELF check points for students modified by Changhan ‎[687 bytes]
814. (hist) ‎Omics students folder 2023 ‎[689 bytes]
815. (hist) ‎Molecular Biology & Genetics ‎[690 bytes]
816. (hist) ‎Amino acids & 3D structure ‎[693 bytes]
817. (hist) ‎PCNA -YJ code:309ir ‎[693 bytes]
818. (hist) ‎Minsu Kim/python/Rosalind / problem9 ‎[694 bytes]
819. (hist) ‎Study-Aging ‎[694 bytes]
820. (hist) ‎What is grammer? ‎[697 bytes]
821. (hist) ‎CHUNG YEON LEE ‎[698 bytes]
822. (hist) ‎Bioprogramming by MJ 20180504 ‎[700 bytes]
823. (hist) ‎Flat Ladder DNA ‎[702 bytes]
824. (hist) ‎Regular Expressions ‎[703 bytes]
825. (hist) ‎Dulguun Baasan ‎[703 bytes]
826. (hist) ‎African Genomics project launched ‎[704 bytes]
827. (hist) ‎Minsu Kim /minsu2 ‎[705 bytes]
828. (hist) ‎+ Make a perl grogram translating 'all' combinations of triple bases into amino acids ‎[709 bytes]
829. (hist) ‎Weekly Biopedia Bioprogramming ‎[710 bytes]
830. (hist) ‎UNIST Omics course Syllabus 2018 ‎[710 bytes]
831. (hist) ‎06.10.FRI ‎[711 bytes]
832. (hist) ‎Byung-ho Kim ‎[714 bytes]
833. (hist) ‎Massive Parallel Sequencing ‎[715 bytes]
834. (hist) ‎Minsu Kim/python/Rosalind / problem10 ‎[715 bytes]
835. (hist) ‎SOAP ‎[723 bytes]
836. (hist) ‎Minsu Kim/python/Rosalind / problem1 ‎[730 bytes]
837. (hist) ‎Genomic Equality ‎[731 bytes]
838. (hist) ‎CXXC-type zinc finger protein 4 ‎[732 bytes]
839. (hist) ‎Free Genomics Project ‎[733 bytes]
840. (hist) ‎H.W.1 ‎[733 bytes]
841. (hist) ‎Totalomics full sequencing and bioinformatics analysis service ‎[735 bytes]
842. (hist) ‎About the Bioperl ‎[735 bytes]
843. (hist) ‎Proteomics Class, 180525 ‎[742 bytes]
844. (hist) ‎Transcriptomics by MJ 20180511 ‎[744 bytes]
845. (hist) ‎N50 N90 calculation using Perl code ‎[745 bytes]
846. (hist) ‎Question & thinking ‎[745 bytes]
847. (hist) ‎Protein secondary structrue prediction ‎[747 bytes]
848. (hist) ‎Proteomics by MJ 20180525 ‎[748 bytes]
849. (hist) ‎Sungjin Kim ‎[751 bytes]
850. (hist) ‎2016.05.20 ‎[752 bytes]
851. (hist) ‎Cancer genome ‎[752 bytes]
852. (hist) ‎5. Extract a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL and print it out in a file MJ ‎[754 bytes]
853. (hist) ‎0603 ‎[755 bytes]
854. (hist) ‎Bioinformatics-OG ‎[755 bytes]
855. (hist) ‎6/03 ‎[757 bytes]
856. (hist) ‎American Physiological Society ‎[758 bytes]
857. (hist) ‎Taq polymerase ‎[758 bytes]
858. (hist) ‎HojuneLee 2024 Geromics Course ‎[758 bytes]
859. (hist) ‎Programmed cell death protein 1 precursor (PD-1) ‎[759 bytes]
860. (hist) ‎Vocabulary ‎[762 bytes]
861. (hist) ‎Homework5 !5 - Find the complementary sequence of a DNA string Code : KSI0013 ‎[766 bytes]
862. (hist) ‎Epigenetics for JS ‎[767 bytes]
863. (hist) ‎Genome sequence mapping ‎[769 bytes]
864. (hist) ‎What are principles of bioinformatics? ‎[770 bytes]
865. (hist) ‎Melanoma-associated antigen C2 ‎[773 bytes]
866. (hist) ‎Genomics Major Paper Publication ‎[776 bytes]
867. (hist) ‎Jong Bhak's instructions for students for Genomics ‎[776 bytes]
868. (hist) ‎Personal Genomics Issues ‎[780 bytes]
869. (hist) ‎What is the human genome rights? ‎[781 bytes]
870. (hist) ‎Bioinformatics course 2016 UNIST Students Folder ‎[786 bytes]
871. (hist) ‎5J3N ‎[787 bytes]
872. (hist) ‎Ilsun Yun/Self Study ‎[788 bytes]
873. (hist) ‎Explaination with ppt ‎[790 bytes]
874. (hist) ‎Sanggyun Kim ‎[791 bytes]
875. (hist) ‎Index.php ‎[792 bytes]
876. (hist) ‎Transcription from DNA sequence to RNA sequence ‎[792 bytes]
877. (hist) ‎HW 2nd seq structure ‎[794 bytes]
878. (hist) ‎Genomics - SE ‎[794 bytes]
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880. (hist) ‎Knome.com ‎[797 bytes]
881. (hist) ‎A DNA sequence ‎[799 bytes]
882. (hist) ‎Epigenomics Class ‎[800 bytes]
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898. (hist) ‎Short question & thinking ‎[830 bytes]
899. (hist) ‎Open Genomics Journal ‎[834 bytes]
900. (hist) ‎From HomeWork ‎[836 bytes]
901. (hist) ‎Protein secondary structure prediction-OG ‎[838 bytes]
902. (hist) ‎16. 05. 20 ‎[842 bytes]
903. (hist) ‎Phenomics ‎[849 bytes]
904. (hist) ‎How to grade this course by Jong Bhak ‎[849 bytes]
905. (hist) ‎WDR48 (Usp1) -YJ code:309ir ‎[850 bytes]
906. (hist) ‎Dabeen Park/Matlab/ANN ‎[850 bytes]
907. (hist) ‎Table-MySQL ‎[850 bytes]
908. (hist) ‎Weekly Biopedia Genomics ‎[851 bytes]
909. (hist) ‎Decode ‎[855 bytes]
910. (hist) ‎Randomly generate five 100 AA long protein sequences and store them in a FASTA file by MJ ‎[865 bytes]
911. (hist) ‎Chapter 3 - The Art of Programming ‎[868 bytes]
912. (hist) ‎GenomeNet ‎[871 bytes]
913. (hist) ‎16. 05. 13 Lecture ‎[871 bytes]
914. (hist) ‎Genomics learning resource ‎[871 bytes]
915. (hist) ‎Genomics 2nd semester 2016/Yoon Changhan ‎[873 bytes]
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920. (hist) ‎Aitbay Sanzhar ‎[887 bytes]
921. (hist) ‎Psychogenomics ‎[888 bytes]
922. (hist) ‎Lecture 2 - Bioprogamming class ‎[891 bytes]
923. (hist) ‎Genomics Transcriptomics Jong Bhak ‎[895 bytes]
924. (hist) ‎Create a FASTA file with a sequence. Open it and reverse the sequence of it and print it out in another FASTA file by MJ ‎[896 bytes]
925. (hist) ‎Genomics by Country ‎[897 bytes]
926. (hist) ‎Polonator ‎[900 bytes]
927. (hist) ‎About the resaon why the helicase is not used in PCR ‎[902 bytes]
928. (hist) ‎Homework from Bioinformatics ‎[903 bytes]
929. (hist) ‎5) Extracting a sequence MKKTGIKG from ASMKATAHQMKKTGIKGMSTYALLRL ‎[903 bytes]
930. (hist) ‎Bioinformatics - SE ‎[903 bytes]
931. (hist) ‎The course will be learnt by teams of students ‎[910 bytes]
932. (hist) ‎Genome Sequencing Procedure ‎[911 bytes]
933. (hist) ‎Byeonghyeong Kim ‎[912 bytes]
934. (hist) ‎Soap de novo ‎[914 bytes]
935. (hist) ‎Genome test's ethical problem ‎[915 bytes]
936. (hist) ‎Minsu Kim/python/Rosalind / problem12 ‎[918 bytes]
937. (hist) ‎BuKyung 6.10 ‎[919 bytes]
938. (hist) ‎11/26 Presentation ‎[920 bytes]
939. (hist) ‎KeonWoo Khim ‎[925 bytes]
940. (hist) ‎Whole-Genome Sequencing in a Patient with Charcot–Marie–Tooth Neuropathy ‎[928 bytes]
941. (hist) ‎06.03.FRI ‎[932 bytes]
942. (hist) ‎YMS HW3 ‎[934 bytes]
943. (hist) ‎Bioscience ‎[938 bytes]
944. (hist) ‎Geromics Course Students Folder ‎[940 bytes]
945. (hist) ‎Bioinformatics ‎[941 bytes]
946. (hist) ‎Genomics people ‎[942 bytes]
947. (hist) ‎SOAP de novo ‎[944 bytes]
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949. (hist) ‎Bioscience - SE ‎[946 bytes]
950. (hist) ‎Illumina ‎[948 bytes]
951. (hist) ‎Biology learning procedure ‎[957 bytes]
952. (hist) ‎1. Install and Learn Bioperl ‎[958 bytes]
953. (hist) ‎KSH 0520 ‎[958 bytes]
954. (hist) ‎Ethnically relevant consensus Korean reference genome towards personal reference genome ‎[969 bytes]
955. (hist) ‎Biopedia by SungwonJeon ‎[975 bytes]
956. (hist) ‎2016.05.27 ‎[980 bytes]
957. (hist) ‎How can I learn and study form this course effectively ‎[980 bytes]
958. (hist) ‎Minsu Kim / BLAST ‎[982 bytes]
959. (hist) ‎6.3.2016 ‎[983 bytes]
960. (hist) ‎1) what is genomics? YS ‎[987 bytes]
961. (hist) ‎Frequently asked questions on this course ‎[988 bytes]
962. (hist) ‎Jung Woo Chul ‎[988 bytes]
963. (hist) ‎Defining Genomics related words ‎[999 bytes]
964. (hist) ‎NanoGen ‎[1,013 bytes]
965. (hist) ‎Extras: List of Pedro's Biological Resources ‎[1,013 bytes]
966. (hist) ‎N50 and N90 ‎[1,013 bytes]
967. (hist) ‎Genomics Class ‎[1,015 bytes]
968. (hist) ‎HW2 KSG 0603 ‎[1,016 bytes]
969. (hist) ‎2017 Genomics Students Folder ‎[1,023 bytes]
970. (hist) ‎Changhan's Ph.D thesis ‎[1,027 bytes]
971. (hist) ‎Introduction to Genomic Technologies ‎[1,034 bytes]
972. (hist) ‎Genomics Prizes ‎[1,039 bytes]
973. (hist) ‎2017.05.12 YS ‎[1,040 bytes]
974. (hist) ‎HyoungJinChoi 2024 Geromics Course ‎[1,040 bytes]
975. (hist) ‎Proteomics class 20180525 ‎[1,044 bytes]
976. (hist) ‎3. Open and re-write one FASTA file containing one protein sequence of TERT MJ ‎[1,046 bytes]
977. (hist) ‎Chapter 1- Biology and Computer Science ‎[1,047 bytes]
978. (hist) ‎Study-Sequencing ‎[1,047 bytes]
979. (hist) ‎Homework YS ‎[1,049 bytes]
980. (hist) ‎HeeUn Kwon ‎[1,050 bytes]
981. (hist) ‎Gun Oh ‎[1,050 bytes]
982. (hist) ‎Donate your genome ‎[1,053 bytes]
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985. (hist) ‎DSS1 ‎[1,058 bytes]
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987. (hist) ‎Amplification, technology ‎[1,072 bytes]
988. (hist) ‎Genomics List ‎[1,074 bytes]
989. (hist) ‎Polony DNA sequencing. 2006 Curr Protoc Mol Biol. ‎[1,076 bytes]
990. (hist) ‎How to write research paper by Jong Bhak ‎[1,080 bytes]
991. (hist) ‎Learn how to learn ‎[1,081 bytes]
992. (hist) ‎Nucleotide sequence of bacteriophage phi X174 DNA. 1977 Nature ‎[1,084 bytes]
993. (hist) ‎Cancer's Last Stand? The Genome Solution ‎[1,084 bytes]
994. (hist) ‎Additional words ‎[1,086 bytes]
995. (hist) ‎Mi Rae Yeo ‎[1,088 bytes]
996. (hist) ‎Species Specific Genomics ‎[1,092 bytes]
997. (hist) ‎Video ‎[1,094 bytes]
998. (hist) ‎Minsu Kim/python/Rosalind / problem11 ‎[1,096 bytes]
999. (hist) ‎0610 ‎[1,099 bytes]
1000. (hist) ‎HW1 ‎[1,102 bytes]

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