[[!meta title="Synthetic design of strong promoters."]]
-[[!tag promoter synthethic oligonucleotides method]]
+[[!tag promoter synthetic oligonucleotides method]]
[[!pmid 20133776 desc="The sequence library was created by printing oligonucleotides with restriction sites on a microarray, and releasing them by cleavage."]]
[[!meta title="A tissue-engineered jellyfish with biomimetic propulsion."]]
-[[!tag synthethic]]
+[[!tag synthetic]]
Nawroth JC, Lee H, Feinberg AW, Ripplinger CM, McCain ML, Grosberg A, Dabiri JO, Parker KK.
[[!meta title="Towards practical, high-capacity, low-maintenance information storage in synthesized DNA."]]
-[[!tag synthethic DNA sequencing]]
+[[!tag synthetic DNA sequencing]]
Goldman N, Bertone P, Chen S, Dessimoz C, Leproust EM, Sipos B, Birney E.
[[!meta title="Toehold switches: de-novo-designed regulators of gene expression."]]
-[[!tag not_read synthethic]]
+[[!tag not_read synthetic]]
Cell. 2014 Nov 6;159(4):925-39. doi:10.1016/j.cell.2014.10.002
[[!meta title="Deep functional analysis of synII, a 770-kilobase synthetic yeast chromosome."]]
-[[!tag yeast synthethic chromosome]]
+[[!tag yeast synthetic chromosome]]
Science. 2017 Mar 10;355(6329). pii: eaaf4791. doi:10.1126/science.aaf4791
[[!meta title="Creating a functional single-chromosome yeast."]]
-[[!tag yeast genome synthethic]]
+[[!tag yeast genome synthetic]]
Nature. 2018 Aug 1. doi:10.1038/s41586-018-0382-x
[[!meta title="Definitive demonstration by synthesis of genome annotation completeness."]]
-[[!tag synthethic]]
+[[!tag synthetic]]
Jaschke PR, Dotson GA, Hung KS, Liu D, Endy D.
[[!meta title="A scalable pipeline for designing reconfigurable organisms."]]
-[[!tag synthethic]]
+[[!tag synthetic]]
Kriegman S, Blackiston D, Levin M, Bongard J
sRNAs digested with Nuclease P1 detects N(p)nN caps. Existence of the internal
polyphosphate chain demonstrated by the fact that the N(p)nN caps are not
fragmented by ionization, like GppppG and unlike pppGpG. m7Gp4Gm and m6Ap3A
-were further identified using synthethic standards. The RppH and ApaH enzymes
+were further identified using synthetic standards. The RppH and ApaH enzymes
cleaved caps, leaving 5′-p or 5′-ppp ends respectively. Cap methylation
protects from RppH cleavage but not from ApaH."]]
compartment” “Overlaps of TAD boundaries and SB breakpoints in all comparisons
are highly significant”
+[[Ranz and coll., 2001|biblio/11157786]] estimate an evolution rate of 0.9–1.4
+chromosomal inversions fixed per million years in _Drosophila_.
+
In insects, the Osiris gene family shows conservation of synteny over ~400
million years ([[Sah and coll., 2012|biblio/22384409]]).
+++ /dev/null
-[[!meta title="pages tagged synthethic"]]
-
-_in progress_
-
-Sc3.0 roadmap: [[Dai and coll., 2020|32791980]].
-
-[[!inline pages="tagged(synthethic)" limit=0]]
-[[!meta title="pages tagged synthetic"]]
+[[!meta title="pages tagged synthethic"]]
-[[!inline pages="tagged(synthetic)" actions="no" archive="yes"
-feedshow=10]]
+_in progress_
+
+Sc3.0 roadmap: [[Dai and coll., 2020|32791980]].
+
+[[!inline pages="tagged(synthethic)" limit=0]]
projects / source / .git / commitdiff