Steven H Strauss

Overview

Explore the profile of Steven H Strauss including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 182

Citations 3993

Followers 0

Related Specialties

Chemistry

Biology

Science

Top 10 Co-Authors

Olga V Boltalina

Alexey A Popov

Igor V Kuvychko

Cathleen Ma

Natalia B Shustova

Amy M Brunner

Yu-Sheng Chen

Ivan E Kareev

Oren P Anderson

Amy L Klocko

Published In

New Phytol

J Am Chem Soc

Chemistry

Inorg Chem

Angew Chem Int Ed Engl

Affiliations

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Recent Articles

Deep-blue emitting 9,10-bis(perfluorobenzyl)anthracene

San L, Balser S, Reeves B, Clikeman T, Chen Y, Strauss S, et al.

Beilstein J Org Chem . 2025 Mar; 21:515-525. PMID: 40079025

A new deep-blue emitting and highly fluorescent anthracene (ANTH) derivative containing perfluorobenzyl (Bn) groups, 9,10-ANTH(Bn), was synthesized in a single step reaction of ANTH or ANTH(Br) with BnI, using either...

Engineering Agrobacterium for improved plant transformation

Goralogia G, Willig C, Strauss S

Plant J . 2025 Mar; 121(5):e70015. PMID: 40051182

Outside of a few model systems and selected taxa, the insertion of transgenes and regeneration of modified plants are difficult or impossible. This is a major bottleneck both for biotechnology...

Rare but diverse off-target and somatic mutations found in field and greenhouse grown trees expressing CRISPR/Cas9

Goralogia G, Andreatta I, Conrad V, Xiong Q, Vining K, Strauss S

Front Bioeng Biotechnol . 2024 Jul; 12:1412927. PMID: 38974658

CRISPR gene editing, while highly efficient in creating desired mutations, also has the potential to cause off-target mutations. This risk is especially high in clonally propagated plants, where editing reagents...

Social and biological innovations are essential to deliver transformative forest biotechnologies

Boerjan W, Strauss S

New Phytol . 2024 May; 243(2):526-536. PMID: 38803120

Forests make immense contributions to societies in the form of ecological services and sustainable industrial products. However, they face major challenges to their viability and economic use due to climate...

Genome-wide association study and network analysis of in vitro transformation in Populus trichocarpa support key roles of diverse phytohormone pathways and cross talk

Nagle M, Yuan J, Kaur D, Ma C, Peremyslova E, Jiang Y, et al.

New Phytol . 2024 Apr; 242(5):2059-2076. PMID: 38650352

Wide variation in amenability to transformation and regeneration (TR) among many plant species and genotypes presents a challenge to the use of genetic engineering in research and breeding. To help...

GWAS supported by computer vision identifies large numbers of candidate regulators of in planta regeneration in Populus trichocarpa

Nagle M, Yuan J, Kaur D, Ma C, Peremyslova E, Jiang Y, et al.

G3 (Bethesda) . 2024 Feb; 14(4). PMID: 38325329

Plant regeneration is an important dimension of plant propagation and a key step in the production of transgenic plants. However, regeneration capacity varies widely among genotypes and species, the molecular...

Reconfiguring Plant Metabolism for Biodegradable Plastic Production

Lu H, Yuan G, Strauss S, Tschaplinski T, Tuskan G, Chen J, et al.

Biodes Res . 2023 Oct; 2020:9078303. PMID: 37849903

For decades, plants have been the subject of genetic engineering to synthesize novel, value-added compounds. Polyhydroxyalkanoates (PHAs), a large class of biodegradable biopolymers naturally synthesized in eubacteria, are among the...

Variation in floral form of CRISPR knock-outs of the poplar homologs of and after FT heat-induced early flowering

Klocko A, Elorriaga E, Ma C, Strauss S

Hortic Res . 2023 Aug; 10(8):uhad132. PMID: 37564267

Plant migration and gene flow from genetically modified or exotic trees to nearby lands or by crossing with wild relatives is a major public and regulatory concern. Many genetic strategies...

GWAS identifies candidate genes controlling adventitious rooting in

Nagle M, Yuan J, Kaur D, Ma C, Peremyslova E, Jiang Y, et al.

Hortic Res . 2023 Aug; 10(8):uhad125. PMID: 37560019

Adventitious rooting (AR) is critical to the propagation, breeding, and genetic engineering of trees. The capacity for plants to undergo this process is highly heritable and of a polygenic nature;...

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Knockout of floral and meiosis genes using CRISPR/Cas9 produces male-sterility in Eucalyptus without impacts on vegetative growth

Nagle M, Nahata S, Zahl B, Nino de Rivera A, Tacker X, Elorriaga E, et al.

Plant Direct . 2023 Jul; 7(7):e507. PMID: 37456612

spp. are widely cultivated for the production of pulp, energy, essential oils, and as ornamentals. However, their dispersal from plantings, especially when grown as an exotic, can cause ecological disruptions....