Zeba Wunderlich at University of California, Irvine

University	University of California, Irvine
Position	___
Citations(all)	2222
Citations(since 2020)	1004
Cited By	1588
hIndex(all)	22
hIndex(since 2020)	16
i10Index(all)	27
i10Index(since 2020)	22
Email	Access Email
University Profile Page	University of California, Irvine
Google Scholar	View Google Scholar Profile

Drosophila immune priming to Enterococcus faecalis relies on immune tolerance rather than resistance

PLoS Pathogens

2023/8/11

Zeba Wunderlich

H-Index: 13

Shadow enhancers mediate trade-offs between transcriptional noise and fidelity

PLoS computational biology

2023/5/19

Alvaro Fletcher

H-Index: 1

Zeba Wunderlich

H-Index: 13

German Enciso

H-Index: 11

Longitudinal monitoring of individual infection progression in Drosophila melanogaster

Iscience

2022/11/18

Srikiran Chandrasekaran

H-Index: 2

Zeba Wunderlich

H-Index: 13

Two promoters integrate multiple enhancer inputs to drive wild-type knirps expression in the Drosophila melanogaster embryo

Genetics

2021/12

Lily Li

H-Index: 6

Rachel Waymack

H-Index: 4

Zeba Wunderlich

H-Index: 13

Mechanistic gene networks inferred from single-cell data with an outlier-insensitive method

Mathematical biosciences

2021/12/1

Zeba Wunderlich

H-Index: 13

Molecular competition can shape enhancer activity in the Drosophila embryo

Iscience

2021/9/24

Rachel Waymack

H-Index: 4

Zeba Wunderlich

H-Index: 13

Embryonic development across space and time

Nature Computational Science

2021/8

Rachel Waymack

H-Index: 4

Zeba Wunderlich

H-Index: 13

The mode of expression divergence in Drosophila fat body is infection-specific

Genome research

2021/6/1

Zeba Wunderlich

H-Index: 13

Enhancer redundancy in development and disease

2021/5

Rachel Waymack

H-Index: 4

Zeba Wunderlich

H-Index: 13

A Mutation in the Drosophila melanogaster eve Stripe 2 Minimal Enhancer Is Buffered by Flanking Sequences

G3: Genes, Genomes, Genetics

2020/12/1

Ben J Vincent

H-Index: 8

Zeba Wunderlich

H-Index: 13

Shadow enhancers can suppress input transcription factor noise through distinct regulatory logic

Elife

2020/8/17

Rachel Waymack

H-Index: 4

Alvaro Fletcher

H-Index: 1

German Enciso

H-Index: 11

Zeba Wunderlich

H-Index: 13

Zeba Wunderlich

University of California, Irvine

About Zeba Wunderlich

Zeba Wunderlich Information

Zeba Wunderlich Skills & Research Interests

Top articles of Zeba Wunderlich

Drosophila immune priming to Enterococcus faecalis relies on immune tolerance rather than resistance

Zeba Wunderlich

Shadow enhancers mediate trade-offs between transcriptional noise and fidelity

Alvaro Fletcher

Zeba Wunderlich

German Enciso

Longitudinal monitoring of individual infection progression in Drosophila melanogaster

Srikiran Chandrasekaran

Zeba Wunderlich

Two promoters integrate multiple enhancer inputs to drive wild-type knirps expression in the Drosophila melanogaster embryo

Lily Li

Rachel Waymack

Zeba Wunderlich

Mechanistic gene networks inferred from single-cell data with an outlier-insensitive method

Zeba Wunderlich

Molecular competition can shape enhancer activity in the Drosophila embryo

Rachel Waymack

Zeba Wunderlich

Embryonic development across space and time

Rachel Waymack

Zeba Wunderlich

The mode of expression divergence in Drosophila fat body is infection-specific

Zeba Wunderlich

Enhancer redundancy in development and disease

Rachel Waymack

Zeba Wunderlich

A Mutation in the Drosophila melanogaster eve Stripe 2 Minimal Enhancer Is Buffered by Flanking Sequences

Ben J Vincent

Zeba Wunderlich

Shadow enhancers can suppress input transcription factor noise through distinct regulatory logic

Rachel Waymack

Alvaro Fletcher

German Enciso

Zeba Wunderlich

Co-Authors

Mark Gerstein

Leonid Mirny

Charless Fowlkes

Angela DePace

Andrej Košmrlj

Murat Tasan